cern awake project status
DESCRIPTION
CERN AWAKE Project Status. Outline. Introduction Project organization West Area and CNGS AWAKE facility studies Required input from the Collaboration Summary. Introduction. June 2012: - PowerPoint PPT PresentationTRANSCRIPT
CERN AWAKE Project Status
2
Outline
bull Introductionbull Project organizationbull West Area and CNGSbull AWAKE facility studiesbull Required input from the Collaborationbull Summary
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
3
IntroductionJune 2012 Official CERN AWAKE project (including project-budget) with mandate sent
by S Myers to CERN departments organize CERN efforts to produce parts of CDR under CERN
responsibilityCDR includes detailed budget CERN manpower and schedule plans for
design construction installation and commissioning
DeliverablesEnd 2012 preliminary report summarizing the ongoing study to the AampT sector Management
Q1 2013 Conceptual Design Report to the AampT sector Management and the SPSC
CERN AWAKE project Work-package leaders and contents have been defined Experts from technical groups defined and discussionsiteration in WPs are ongoing
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
4
Mandate of CERN AWAKE Projectbull Identify the best site for installation of the facility on the SPS by carrying out a study covering
ndash The design of the proton beam-line from the SPS to the entry point of the plasma cell to meet the required parameters
ndash The design of the downstream beam-line from the plasma cell to the beam dump ndash The design the common beam-line for the proton electron and laser light beam at the entry into the plasma
cell Specification of the parameters for these incoming beams ndash The design of the experimental area (envelope) considering layout optimization of all components in the area ndash The study of access possibilities and assess radiation and safety aspects ndash The study of the general infrastructures (Civil Engineering Access CV EL transport handling control)ndash The physics program that could be carried out on each site ndash The comparison of the cost and of the schedule of the alternative sites
bull Based on the study recommend a site for the facility and deliver the chapters covering the beam line the experimental area and all interfaces and services at CERN in the conceptual design report (CDR) of the AWAKE CERN facility The CDR should include the points mentioned in the section above plus the following informationndash Specification of the baseline beam parameters to be used for the designndash Predictions of measurable quantities in the diagnostic instrumentationndash Specification of diagnostic instrumentation in the experimental areandash Design and interface with the electron beam up to the plasma cell ndash Study all interfaces between the different systems (plasma cell electron beam proton beam laserhellip) ndash Evaluation of time scale and costs of all items at a level needed for the CDRndash Evaluate dismantling feasibility and cost
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
5
CERN AWAKE Project Structure
Radiation Protection Helmut VinckeCivil Engineering John OsborneGeneral Safety and Environment Andre Jorge HenriquesGeneral Services CV EL access storage handling
WP3 Primary beam-linesChiara Bracco
CERN AWAKE ProjectProject leader Edda Gschwendtner
Deputy Chiara Bracco
WP4 Experimental AreaEdda Gschwendtner
WP2 SPS beamElena Chapochnikova
WP1 Project ManagementEdda Gschwendtner
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Aamp T sector managementEngineering Beams Technology Departments
Injectors and Experimental Facilities Committee (IEFC)
6
CERN AWAKE Project Organization INDICO httpsindicocernchcategoryDisplaypycategId=4278
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Weekly (CERN project mgt team) monthly
bi-weekly (Collaboration board)
CERN Work-package meetings Organized by WP leader
EDMS httpsedmscernchnavPCERN-0000094988V0PCERN-0000094988V0
Whenever needed
7
Proton Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Nominal
Beam Energy 450 GeV
Bunch intensity 3times1011 p
Number of bunches 1
Repetition rate 003 Hz
Transverse norm emittance 33-35 mm
Transverse beam size (at b=5m)
02 mm
Angle accuracy lt005 mrad
Pointing accuracy lt05 mm
Energy spread 034 (rms)
Bunch length 12 cm
Energy in bunch 21 kJ
Parameter Nominal
Number of run-periodsyear 4
Length of run-period 2 weeks
Total number of beam shotsyear (100 efficiency)
162000
Total number of protonsyear 486times1016 p
8
Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Value
Beam Energy 5 or 10 or 20 MeV
Bunch intensity 108 electrons
Bunch length 0165mmltllt1mm
Repetition rate 003 Hz
Transverse norm emittance
lt 25 mm mrad
Transverse beam size (at beta=m)
Angle(mrad) ~5-20 mrad
Electron beam specifications
Laser30fs 800nm ~TW
R amp D facility frequent access to plasma cell laser etchellip needed
9
Experimental Layout
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Plasma-cellProton beam dump
RF gun
Laser
Laser dump
OTRStreak camera
CTREO diagnostic
e- spectrometer
e-
SPSprotons
~3m
10m 15m20m 10m
10m
10E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
SPS
11
Facility Site I West Area
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT61
TT4TT5
Beam from TCC6 - SPS
AWAKE
183
Proposed in LOI 2011
West Area todayProton beam line TT61 ~emptyTT4 and TT5 storage area for (radioactive) magnets Needed during LS1
Until 2004 West Area used as experimental beam facility
12
Facility Site II CNGS
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
CNGS Parameters
Proton beam energy from SPS 400 GeVc
Cycle repetition rate 017 Hz
Number of extractionscycle 2
Protons per cycle 2x24E13
Proton pulse length 105 ms
Beam power (max) 510 kW
Beam size at target ( )s 05mm
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
2
Outline
bull Introductionbull Project organizationbull West Area and CNGSbull AWAKE facility studiesbull Required input from the Collaborationbull Summary
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
3
IntroductionJune 2012 Official CERN AWAKE project (including project-budget) with mandate sent
by S Myers to CERN departments organize CERN efforts to produce parts of CDR under CERN
responsibilityCDR includes detailed budget CERN manpower and schedule plans for
design construction installation and commissioning
DeliverablesEnd 2012 preliminary report summarizing the ongoing study to the AampT sector Management
Q1 2013 Conceptual Design Report to the AampT sector Management and the SPSC
CERN AWAKE project Work-package leaders and contents have been defined Experts from technical groups defined and discussionsiteration in WPs are ongoing
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
4
Mandate of CERN AWAKE Projectbull Identify the best site for installation of the facility on the SPS by carrying out a study covering
ndash The design of the proton beam-line from the SPS to the entry point of the plasma cell to meet the required parameters
ndash The design of the downstream beam-line from the plasma cell to the beam dump ndash The design the common beam-line for the proton electron and laser light beam at the entry into the plasma
cell Specification of the parameters for these incoming beams ndash The design of the experimental area (envelope) considering layout optimization of all components in the area ndash The study of access possibilities and assess radiation and safety aspects ndash The study of the general infrastructures (Civil Engineering Access CV EL transport handling control)ndash The physics program that could be carried out on each site ndash The comparison of the cost and of the schedule of the alternative sites
bull Based on the study recommend a site for the facility and deliver the chapters covering the beam line the experimental area and all interfaces and services at CERN in the conceptual design report (CDR) of the AWAKE CERN facility The CDR should include the points mentioned in the section above plus the following informationndash Specification of the baseline beam parameters to be used for the designndash Predictions of measurable quantities in the diagnostic instrumentationndash Specification of diagnostic instrumentation in the experimental areandash Design and interface with the electron beam up to the plasma cell ndash Study all interfaces between the different systems (plasma cell electron beam proton beam laserhellip) ndash Evaluation of time scale and costs of all items at a level needed for the CDRndash Evaluate dismantling feasibility and cost
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
5
CERN AWAKE Project Structure
Radiation Protection Helmut VinckeCivil Engineering John OsborneGeneral Safety and Environment Andre Jorge HenriquesGeneral Services CV EL access storage handling
WP3 Primary beam-linesChiara Bracco
CERN AWAKE ProjectProject leader Edda Gschwendtner
Deputy Chiara Bracco
WP4 Experimental AreaEdda Gschwendtner
WP2 SPS beamElena Chapochnikova
WP1 Project ManagementEdda Gschwendtner
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Aamp T sector managementEngineering Beams Technology Departments
Injectors and Experimental Facilities Committee (IEFC)
6
CERN AWAKE Project Organization INDICO httpsindicocernchcategoryDisplaypycategId=4278
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Weekly (CERN project mgt team) monthly
bi-weekly (Collaboration board)
CERN Work-package meetings Organized by WP leader
EDMS httpsedmscernchnavPCERN-0000094988V0PCERN-0000094988V0
Whenever needed
7
Proton Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Nominal
Beam Energy 450 GeV
Bunch intensity 3times1011 p
Number of bunches 1
Repetition rate 003 Hz
Transverse norm emittance 33-35 mm
Transverse beam size (at b=5m)
02 mm
Angle accuracy lt005 mrad
Pointing accuracy lt05 mm
Energy spread 034 (rms)
Bunch length 12 cm
Energy in bunch 21 kJ
Parameter Nominal
Number of run-periodsyear 4
Length of run-period 2 weeks
Total number of beam shotsyear (100 efficiency)
162000
Total number of protonsyear 486times1016 p
8
Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Value
Beam Energy 5 or 10 or 20 MeV
Bunch intensity 108 electrons
Bunch length 0165mmltllt1mm
Repetition rate 003 Hz
Transverse norm emittance
lt 25 mm mrad
Transverse beam size (at beta=m)
Angle(mrad) ~5-20 mrad
Electron beam specifications
Laser30fs 800nm ~TW
R amp D facility frequent access to plasma cell laser etchellip needed
9
Experimental Layout
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Plasma-cellProton beam dump
RF gun
Laser
Laser dump
OTRStreak camera
CTREO diagnostic
e- spectrometer
e-
SPSprotons
~3m
10m 15m20m 10m
10m
10E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
SPS
11
Facility Site I West Area
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT61
TT4TT5
Beam from TCC6 - SPS
AWAKE
183
Proposed in LOI 2011
West Area todayProton beam line TT61 ~emptyTT4 and TT5 storage area for (radioactive) magnets Needed during LS1
Until 2004 West Area used as experimental beam facility
12
Facility Site II CNGS
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
CNGS Parameters
Proton beam energy from SPS 400 GeVc
Cycle repetition rate 017 Hz
Number of extractionscycle 2
Protons per cycle 2x24E13
Proton pulse length 105 ms
Beam power (max) 510 kW
Beam size at target ( )s 05mm
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
3
IntroductionJune 2012 Official CERN AWAKE project (including project-budget) with mandate sent
by S Myers to CERN departments organize CERN efforts to produce parts of CDR under CERN
responsibilityCDR includes detailed budget CERN manpower and schedule plans for
design construction installation and commissioning
DeliverablesEnd 2012 preliminary report summarizing the ongoing study to the AampT sector Management
Q1 2013 Conceptual Design Report to the AampT sector Management and the SPSC
CERN AWAKE project Work-package leaders and contents have been defined Experts from technical groups defined and discussionsiteration in WPs are ongoing
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
4
Mandate of CERN AWAKE Projectbull Identify the best site for installation of the facility on the SPS by carrying out a study covering
ndash The design of the proton beam-line from the SPS to the entry point of the plasma cell to meet the required parameters
ndash The design of the downstream beam-line from the plasma cell to the beam dump ndash The design the common beam-line for the proton electron and laser light beam at the entry into the plasma
cell Specification of the parameters for these incoming beams ndash The design of the experimental area (envelope) considering layout optimization of all components in the area ndash The study of access possibilities and assess radiation and safety aspects ndash The study of the general infrastructures (Civil Engineering Access CV EL transport handling control)ndash The physics program that could be carried out on each site ndash The comparison of the cost and of the schedule of the alternative sites
bull Based on the study recommend a site for the facility and deliver the chapters covering the beam line the experimental area and all interfaces and services at CERN in the conceptual design report (CDR) of the AWAKE CERN facility The CDR should include the points mentioned in the section above plus the following informationndash Specification of the baseline beam parameters to be used for the designndash Predictions of measurable quantities in the diagnostic instrumentationndash Specification of diagnostic instrumentation in the experimental areandash Design and interface with the electron beam up to the plasma cell ndash Study all interfaces between the different systems (plasma cell electron beam proton beam laserhellip) ndash Evaluation of time scale and costs of all items at a level needed for the CDRndash Evaluate dismantling feasibility and cost
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
5
CERN AWAKE Project Structure
Radiation Protection Helmut VinckeCivil Engineering John OsborneGeneral Safety and Environment Andre Jorge HenriquesGeneral Services CV EL access storage handling
WP3 Primary beam-linesChiara Bracco
CERN AWAKE ProjectProject leader Edda Gschwendtner
Deputy Chiara Bracco
WP4 Experimental AreaEdda Gschwendtner
WP2 SPS beamElena Chapochnikova
WP1 Project ManagementEdda Gschwendtner
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Aamp T sector managementEngineering Beams Technology Departments
Injectors and Experimental Facilities Committee (IEFC)
6
CERN AWAKE Project Organization INDICO httpsindicocernchcategoryDisplaypycategId=4278
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Weekly (CERN project mgt team) monthly
bi-weekly (Collaboration board)
CERN Work-package meetings Organized by WP leader
EDMS httpsedmscernchnavPCERN-0000094988V0PCERN-0000094988V0
Whenever needed
7
Proton Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Nominal
Beam Energy 450 GeV
Bunch intensity 3times1011 p
Number of bunches 1
Repetition rate 003 Hz
Transverse norm emittance 33-35 mm
Transverse beam size (at b=5m)
02 mm
Angle accuracy lt005 mrad
Pointing accuracy lt05 mm
Energy spread 034 (rms)
Bunch length 12 cm
Energy in bunch 21 kJ
Parameter Nominal
Number of run-periodsyear 4
Length of run-period 2 weeks
Total number of beam shotsyear (100 efficiency)
162000
Total number of protonsyear 486times1016 p
8
Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Value
Beam Energy 5 or 10 or 20 MeV
Bunch intensity 108 electrons
Bunch length 0165mmltllt1mm
Repetition rate 003 Hz
Transverse norm emittance
lt 25 mm mrad
Transverse beam size (at beta=m)
Angle(mrad) ~5-20 mrad
Electron beam specifications
Laser30fs 800nm ~TW
R amp D facility frequent access to plasma cell laser etchellip needed
9
Experimental Layout
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Plasma-cellProton beam dump
RF gun
Laser
Laser dump
OTRStreak camera
CTREO diagnostic
e- spectrometer
e-
SPSprotons
~3m
10m 15m20m 10m
10m
10E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
SPS
11
Facility Site I West Area
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT61
TT4TT5
Beam from TCC6 - SPS
AWAKE
183
Proposed in LOI 2011
West Area todayProton beam line TT61 ~emptyTT4 and TT5 storage area for (radioactive) magnets Needed during LS1
Until 2004 West Area used as experimental beam facility
12
Facility Site II CNGS
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
CNGS Parameters
Proton beam energy from SPS 400 GeVc
Cycle repetition rate 017 Hz
Number of extractionscycle 2
Protons per cycle 2x24E13
Proton pulse length 105 ms
Beam power (max) 510 kW
Beam size at target ( )s 05mm
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
4
Mandate of CERN AWAKE Projectbull Identify the best site for installation of the facility on the SPS by carrying out a study covering
ndash The design of the proton beam-line from the SPS to the entry point of the plasma cell to meet the required parameters
ndash The design of the downstream beam-line from the plasma cell to the beam dump ndash The design the common beam-line for the proton electron and laser light beam at the entry into the plasma
cell Specification of the parameters for these incoming beams ndash The design of the experimental area (envelope) considering layout optimization of all components in the area ndash The study of access possibilities and assess radiation and safety aspects ndash The study of the general infrastructures (Civil Engineering Access CV EL transport handling control)ndash The physics program that could be carried out on each site ndash The comparison of the cost and of the schedule of the alternative sites
bull Based on the study recommend a site for the facility and deliver the chapters covering the beam line the experimental area and all interfaces and services at CERN in the conceptual design report (CDR) of the AWAKE CERN facility The CDR should include the points mentioned in the section above plus the following informationndash Specification of the baseline beam parameters to be used for the designndash Predictions of measurable quantities in the diagnostic instrumentationndash Specification of diagnostic instrumentation in the experimental areandash Design and interface with the electron beam up to the plasma cell ndash Study all interfaces between the different systems (plasma cell electron beam proton beam laserhellip) ndash Evaluation of time scale and costs of all items at a level needed for the CDRndash Evaluate dismantling feasibility and cost
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
5
CERN AWAKE Project Structure
Radiation Protection Helmut VinckeCivil Engineering John OsborneGeneral Safety and Environment Andre Jorge HenriquesGeneral Services CV EL access storage handling
WP3 Primary beam-linesChiara Bracco
CERN AWAKE ProjectProject leader Edda Gschwendtner
Deputy Chiara Bracco
WP4 Experimental AreaEdda Gschwendtner
WP2 SPS beamElena Chapochnikova
WP1 Project ManagementEdda Gschwendtner
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Aamp T sector managementEngineering Beams Technology Departments
Injectors and Experimental Facilities Committee (IEFC)
6
CERN AWAKE Project Organization INDICO httpsindicocernchcategoryDisplaypycategId=4278
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Weekly (CERN project mgt team) monthly
bi-weekly (Collaboration board)
CERN Work-package meetings Organized by WP leader
EDMS httpsedmscernchnavPCERN-0000094988V0PCERN-0000094988V0
Whenever needed
7
Proton Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Nominal
Beam Energy 450 GeV
Bunch intensity 3times1011 p
Number of bunches 1
Repetition rate 003 Hz
Transverse norm emittance 33-35 mm
Transverse beam size (at b=5m)
02 mm
Angle accuracy lt005 mrad
Pointing accuracy lt05 mm
Energy spread 034 (rms)
Bunch length 12 cm
Energy in bunch 21 kJ
Parameter Nominal
Number of run-periodsyear 4
Length of run-period 2 weeks
Total number of beam shotsyear (100 efficiency)
162000
Total number of protonsyear 486times1016 p
8
Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Value
Beam Energy 5 or 10 or 20 MeV
Bunch intensity 108 electrons
Bunch length 0165mmltllt1mm
Repetition rate 003 Hz
Transverse norm emittance
lt 25 mm mrad
Transverse beam size (at beta=m)
Angle(mrad) ~5-20 mrad
Electron beam specifications
Laser30fs 800nm ~TW
R amp D facility frequent access to plasma cell laser etchellip needed
9
Experimental Layout
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Plasma-cellProton beam dump
RF gun
Laser
Laser dump
OTRStreak camera
CTREO diagnostic
e- spectrometer
e-
SPSprotons
~3m
10m 15m20m 10m
10m
10E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
SPS
11
Facility Site I West Area
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT61
TT4TT5
Beam from TCC6 - SPS
AWAKE
183
Proposed in LOI 2011
West Area todayProton beam line TT61 ~emptyTT4 and TT5 storage area for (radioactive) magnets Needed during LS1
Until 2004 West Area used as experimental beam facility
12
Facility Site II CNGS
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
CNGS Parameters
Proton beam energy from SPS 400 GeVc
Cycle repetition rate 017 Hz
Number of extractionscycle 2
Protons per cycle 2x24E13
Proton pulse length 105 ms
Beam power (max) 510 kW
Beam size at target ( )s 05mm
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
5
CERN AWAKE Project Structure
Radiation Protection Helmut VinckeCivil Engineering John OsborneGeneral Safety and Environment Andre Jorge HenriquesGeneral Services CV EL access storage handling
WP3 Primary beam-linesChiara Bracco
CERN AWAKE ProjectProject leader Edda Gschwendtner
Deputy Chiara Bracco
WP4 Experimental AreaEdda Gschwendtner
WP2 SPS beamElena Chapochnikova
WP1 Project ManagementEdda Gschwendtner
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Aamp T sector managementEngineering Beams Technology Departments
Injectors and Experimental Facilities Committee (IEFC)
6
CERN AWAKE Project Organization INDICO httpsindicocernchcategoryDisplaypycategId=4278
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Weekly (CERN project mgt team) monthly
bi-weekly (Collaboration board)
CERN Work-package meetings Organized by WP leader
EDMS httpsedmscernchnavPCERN-0000094988V0PCERN-0000094988V0
Whenever needed
7
Proton Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Nominal
Beam Energy 450 GeV
Bunch intensity 3times1011 p
Number of bunches 1
Repetition rate 003 Hz
Transverse norm emittance 33-35 mm
Transverse beam size (at b=5m)
02 mm
Angle accuracy lt005 mrad
Pointing accuracy lt05 mm
Energy spread 034 (rms)
Bunch length 12 cm
Energy in bunch 21 kJ
Parameter Nominal
Number of run-periodsyear 4
Length of run-period 2 weeks
Total number of beam shotsyear (100 efficiency)
162000
Total number of protonsyear 486times1016 p
8
Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Value
Beam Energy 5 or 10 or 20 MeV
Bunch intensity 108 electrons
Bunch length 0165mmltllt1mm
Repetition rate 003 Hz
Transverse norm emittance
lt 25 mm mrad
Transverse beam size (at beta=m)
Angle(mrad) ~5-20 mrad
Electron beam specifications
Laser30fs 800nm ~TW
R amp D facility frequent access to plasma cell laser etchellip needed
9
Experimental Layout
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Plasma-cellProton beam dump
RF gun
Laser
Laser dump
OTRStreak camera
CTREO diagnostic
e- spectrometer
e-
SPSprotons
~3m
10m 15m20m 10m
10m
10E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
SPS
11
Facility Site I West Area
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT61
TT4TT5
Beam from TCC6 - SPS
AWAKE
183
Proposed in LOI 2011
West Area todayProton beam line TT61 ~emptyTT4 and TT5 storage area for (radioactive) magnets Needed during LS1
Until 2004 West Area used as experimental beam facility
12
Facility Site II CNGS
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
CNGS Parameters
Proton beam energy from SPS 400 GeVc
Cycle repetition rate 017 Hz
Number of extractionscycle 2
Protons per cycle 2x24E13
Proton pulse length 105 ms
Beam power (max) 510 kW
Beam size at target ( )s 05mm
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
6
CERN AWAKE Project Organization INDICO httpsindicocernchcategoryDisplaypycategId=4278
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Weekly (CERN project mgt team) monthly
bi-weekly (Collaboration board)
CERN Work-package meetings Organized by WP leader
EDMS httpsedmscernchnavPCERN-0000094988V0PCERN-0000094988V0
Whenever needed
7
Proton Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Nominal
Beam Energy 450 GeV
Bunch intensity 3times1011 p
Number of bunches 1
Repetition rate 003 Hz
Transverse norm emittance 33-35 mm
Transverse beam size (at b=5m)
02 mm
Angle accuracy lt005 mrad
Pointing accuracy lt05 mm
Energy spread 034 (rms)
Bunch length 12 cm
Energy in bunch 21 kJ
Parameter Nominal
Number of run-periodsyear 4
Length of run-period 2 weeks
Total number of beam shotsyear (100 efficiency)
162000
Total number of protonsyear 486times1016 p
8
Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Value
Beam Energy 5 or 10 or 20 MeV
Bunch intensity 108 electrons
Bunch length 0165mmltllt1mm
Repetition rate 003 Hz
Transverse norm emittance
lt 25 mm mrad
Transverse beam size (at beta=m)
Angle(mrad) ~5-20 mrad
Electron beam specifications
Laser30fs 800nm ~TW
R amp D facility frequent access to plasma cell laser etchellip needed
9
Experimental Layout
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Plasma-cellProton beam dump
RF gun
Laser
Laser dump
OTRStreak camera
CTREO diagnostic
e- spectrometer
e-
SPSprotons
~3m
10m 15m20m 10m
10m
10E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
SPS
11
Facility Site I West Area
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT61
TT4TT5
Beam from TCC6 - SPS
AWAKE
183
Proposed in LOI 2011
West Area todayProton beam line TT61 ~emptyTT4 and TT5 storage area for (radioactive) magnets Needed during LS1
Until 2004 West Area used as experimental beam facility
12
Facility Site II CNGS
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
CNGS Parameters
Proton beam energy from SPS 400 GeVc
Cycle repetition rate 017 Hz
Number of extractionscycle 2
Protons per cycle 2x24E13
Proton pulse length 105 ms
Beam power (max) 510 kW
Beam size at target ( )s 05mm
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
7
Proton Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Nominal
Beam Energy 450 GeV
Bunch intensity 3times1011 p
Number of bunches 1
Repetition rate 003 Hz
Transverse norm emittance 33-35 mm
Transverse beam size (at b=5m)
02 mm
Angle accuracy lt005 mrad
Pointing accuracy lt05 mm
Energy spread 034 (rms)
Bunch length 12 cm
Energy in bunch 21 kJ
Parameter Nominal
Number of run-periodsyear 4
Length of run-period 2 weeks
Total number of beam shotsyear (100 efficiency)
162000
Total number of protonsyear 486times1016 p
8
Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Value
Beam Energy 5 or 10 or 20 MeV
Bunch intensity 108 electrons
Bunch length 0165mmltllt1mm
Repetition rate 003 Hz
Transverse norm emittance
lt 25 mm mrad
Transverse beam size (at beta=m)
Angle(mrad) ~5-20 mrad
Electron beam specifications
Laser30fs 800nm ~TW
R amp D facility frequent access to plasma cell laser etchellip needed
9
Experimental Layout
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Plasma-cellProton beam dump
RF gun
Laser
Laser dump
OTRStreak camera
CTREO diagnostic
e- spectrometer
e-
SPSprotons
~3m
10m 15m20m 10m
10m
10E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
SPS
11
Facility Site I West Area
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT61
TT4TT5
Beam from TCC6 - SPS
AWAKE
183
Proposed in LOI 2011
West Area todayProton beam line TT61 ~emptyTT4 and TT5 storage area for (radioactive) magnets Needed during LS1
Until 2004 West Area used as experimental beam facility
12
Facility Site II CNGS
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
CNGS Parameters
Proton beam energy from SPS 400 GeVc
Cycle repetition rate 017 Hz
Number of extractionscycle 2
Protons per cycle 2x24E13
Proton pulse length 105 ms
Beam power (max) 510 kW
Beam size at target ( )s 05mm
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
8
Beam Specifications
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Parameter Value
Beam Energy 5 or 10 or 20 MeV
Bunch intensity 108 electrons
Bunch length 0165mmltllt1mm
Repetition rate 003 Hz
Transverse norm emittance
lt 25 mm mrad
Transverse beam size (at beta=m)
Angle(mrad) ~5-20 mrad
Electron beam specifications
Laser30fs 800nm ~TW
R amp D facility frequent access to plasma cell laser etchellip needed
9
Experimental Layout
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Plasma-cellProton beam dump
RF gun
Laser
Laser dump
OTRStreak camera
CTREO diagnostic
e- spectrometer
e-
SPSprotons
~3m
10m 15m20m 10m
10m
10E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
SPS
11
Facility Site I West Area
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT61
TT4TT5
Beam from TCC6 - SPS
AWAKE
183
Proposed in LOI 2011
West Area todayProton beam line TT61 ~emptyTT4 and TT5 storage area for (radioactive) magnets Needed during LS1
Until 2004 West Area used as experimental beam facility
12
Facility Site II CNGS
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
CNGS Parameters
Proton beam energy from SPS 400 GeVc
Cycle repetition rate 017 Hz
Number of extractionscycle 2
Protons per cycle 2x24E13
Proton pulse length 105 ms
Beam power (max) 510 kW
Beam size at target ( )s 05mm
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
9
Experimental Layout
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Plasma-cellProton beam dump
RF gun
Laser
Laser dump
OTRStreak camera
CTREO diagnostic
e- spectrometer
e-
SPSprotons
~3m
10m 15m20m 10m
10m
10E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
SPS
11
Facility Site I West Area
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT61
TT4TT5
Beam from TCC6 - SPS
AWAKE
183
Proposed in LOI 2011
West Area todayProton beam line TT61 ~emptyTT4 and TT5 storage area for (radioactive) magnets Needed during LS1
Until 2004 West Area used as experimental beam facility
12
Facility Site II CNGS
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
CNGS Parameters
Proton beam energy from SPS 400 GeVc
Cycle repetition rate 017 Hz
Number of extractionscycle 2
Protons per cycle 2x24E13
Proton pulse length 105 ms
Beam power (max) 510 kW
Beam size at target ( )s 05mm
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
10E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
SPS
11
Facility Site I West Area
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT61
TT4TT5
Beam from TCC6 - SPS
AWAKE
183
Proposed in LOI 2011
West Area todayProton beam line TT61 ~emptyTT4 and TT5 storage area for (radioactive) magnets Needed during LS1
Until 2004 West Area used as experimental beam facility
12
Facility Site II CNGS
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
CNGS Parameters
Proton beam energy from SPS 400 GeVc
Cycle repetition rate 017 Hz
Number of extractionscycle 2
Protons per cycle 2x24E13
Proton pulse length 105 ms
Beam power (max) 510 kW
Beam size at target ( )s 05mm
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
11
Facility Site I West Area
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT61
TT4TT5
Beam from TCC6 - SPS
AWAKE
183
Proposed in LOI 2011
West Area todayProton beam line TT61 ~emptyTT4 and TT5 storage area for (radioactive) magnets Needed during LS1
Until 2004 West Area used as experimental beam facility
12
Facility Site II CNGS
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
CNGS Parameters
Proton beam energy from SPS 400 GeVc
Cycle repetition rate 017 Hz
Number of extractionscycle 2
Protons per cycle 2x24E13
Proton pulse length 105 ms
Beam power (max) 510 kW
Beam size at target ( )s 05mm
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
12
Facility Site II CNGS
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
CNGS Parameters
Proton beam energy from SPS 400 GeVc
Cycle repetition rate 017 Hz
Number of extractionscycle 2
Protons per cycle 2x24E13
Proton pulse length 105 ms
Beam power (max) 510 kW
Beam size at target ( )s 05mm
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
13
CNGS Today
434m100m
1095m 18m 5m 5m67m
27m
TBID
p + C (interactions) p+ K+ (decay in flight) m+ + nm
Approved for 2251019 protons on target Expect ~10 nt events in OPERA today 1731019 pot by end of 2012 ~1831019 pot
Since 2008 running facility muon neutrino production in order to measure appearance of tau-neutrinos in Gran Sasso experiments
Proton beam and secondary beam-line fully equipped and running All services (CV ELhellip) running
AWAKE
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
14E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
List of issues we currently study for facility evaluation
ndash Radiation protectionndash Civil engineering ndash Proton beam-linendash Layout and integrationndash Dumpndash Electricityndash Accessndash Cooling amp Ventilationndash Storage amp handlingndash Safetyndash hellip
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
Plasma Cell
Dump2deg
Radiation Protection Studies and Consequences
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012 15
Make sure that radiation levels from muons are below RP criteria Consequences
bull Bend p- beam down-wards limited number of beam shots different energy
CERN fence
West hall
Helmut Vinckersquos talkWest Area
CNGS (underground area) Accessibility CNGS target horns removal
Chiara Braccorsquos talk
John Osbornersquos talkbull Civil engineering build a beam-trench
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
16
Layout Integration Studies
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Ans Pardonsrsquo talk
Many more details from
collaboration on footprint required
West Area-Consider civil engineering-Consider footprint of AWAKE experiment
Target Horn
TSG41Storage gallery
(120 m)
Proton beam line TT41 Junction chamber Target chamber
Access Gallery
CNGS-As long as no decision on CNGS continuation taken
- Keep CNGS facility in shape- Install AWAKE experiment temporarily
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
17
EL InfrastructureWest Area
ndash Primary substation is close (200m)ndash Existing infrastructure oldndash A lot must be refurbished renewedhellip
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
TT5TT4
CNGSndash EL infrastructure exists but must be modified
EL infrastructure can only be done once all electrical consumptions are estimated by the clients (PC CV general services) and the type of network is specified
66 kV power line
18kV
ndash Technical galleries bull 18kV amp 66kV power lines
backbone of the CERN gridbull Installation until end 2012
Davide Bozzini EN-EL
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
18
Cooling amp Ventilation
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area-Pumping system cooling towers piping connections
- need refurbishment redoing some of them could maybe be used-Separate ventilation systems for proton beam-line experimental area and dump
CNGS-Ventilation system exists-But needs some modifications
CV infrastructure can only be done once all cooling and ventilation needs are estimated by the clients (PC CV general services)
Michele Battistin EN-CV
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
19
Access System
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
Rui Nunes GS-ASE
TT61 Access Point
Existingnew beam
line
nTOFAccess Point
Access gallery for nTOFTT6
1
ShieldingCivil Eng Must leave path
for access to nTOF
West Area- new access system of lsquoprimary area typersquo (higher level of risk exposure and radiation
classfication)- Turnstile and material access door needed passive beam stopper - Interlock system shared with HiRadMat and LHC (to be modified)- De-coupled from nTOF area
Physical layout of the area very important for more design details
CNGS- Existing access could be moved down the tunnel- Modifications needed
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
20
West Area vs CNGS ndash Incomplete
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area CNGS
Proton beam line - To be done + Most of it exists
Prompt dose issues(muon dose)
- Consequences on beam energy andor limited number of extractions
+ OK under control
Other radiation issues - Shielding to protect West Area - Target horns Need long cool-down to remove
Civil engineering - Needed for trench -+ to be checked whether needed
Size of experimental area + OK - Small
Access - New access system + but experimental area nearby
+ Access system exists - but long distance to experimental area
Electricity - A lot must be refurbished renewed + Exists - needs some modifications
Cooling ventilation - A lot must be refurbished renewedhellip + Exists - needs some modifications
Storage - TT4TT5 full with stored magnets etchellip area needed in LS1 build new storage building
+ No storage area
Beam dump - Must be newly built - lot of shielding needed + Exists
Control room - New building - Inside tunnel
Safety Laser klystron hellip safety files Laser klystron hellip safety files
hellip hellip hellip
Further Detailed Studies Needed
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
21
Time-Scale
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West AreaBeam not before 2017 New magnets build new storage area new service installationshellip
CNGS Beam 2015 Only when reusing proton beam-line magnets and no dismantling of CNGS target horns
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
22
Summary
CERN project structure well defined
Studies ongoing for West Area and CNGS
Many issues have already been definedMany iterations with technical groups neededNeed input from Collaboration to advance
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
23
Necessary input from Collaboration
bull Detailed layout of ALL equipment (+ auxiliaries)bull Electrical consumptionbull Cooling amp ventilation needsbull Radiation hardness of equipmentbull Safety information laser klystron gas hellipbull Control needs (control room computers hellip)bull Access needs
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
24
Necessary input from Collaboration
bull Electron beam injection interface with p-beambull Quadrupoles downstream the plasma cellbull Specification of energybull Minimum number of shots
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
By end October 2012
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
25
bull Additional slides
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-
26
CERN Facilities
E Gschwendtner AWAKE Collaboration Meeting CERN 18102012
West Area
CNGS
- CERN AWAKE Project Status
- Outline
- Introduction
- Mandate of CERN AWAKE Project
- CERN AWAKE Project Structure
- CERN AWAKE Project Organization
- Proton Beam Specifications
- Beam Specifications
- Experimental Layout
- Slide 10
- Facility Site I West Area
- Facility Site II CNGS
- CNGS Today
- Slide 14
- Radiation Protection Studies and Consequences
- Layout Integration Studies
- EL Infrastructure
- Cooling amp Ventilation
- Access System
- West Area vs CNGS ndash Incomplete
- Time-Scale
- Summary
- Necessary input from Collaboration
- Necessary input from Collaboration (2)
- Slide 25
- CERN Facilities
-