erd15 compton electron detector r&d · erd15 : compton electron detector r&d •requirement...
TRANSCRIPT
![Page 1: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/1.jpg)
eRD15
Compton electron detector R&D
EIC R&D meeting
January 26-27th 2017
Alexandre Camsonne
![Page 2: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/2.jpg)
eRD15 : Compton electron detector R&D
• Requirement
– 1% or better electron polarization measurement
– Best measurement Compton electron detector at SLD ( ~0.5%)
• Deliverables
– Simulation to determine signal to background for JLEIC baseline Roman Pot and expected accuracy
– Detector R&D for faster detector ( signal at least shorter than 100 ns for eRHIC design, improves rate capability for JLEIC )
– Test stand at JLab to measure precision polarization with the foreseen detector for EIC
2
![Page 3: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/3.jpg)
Deliverable estimate for FY 2017
• Simulation – Implement beam pipe in magnet
– More cross check with old simulation
– Full simulation with Interaction Region and beam pipe
– Run simulation large scale on batch farm will full setup
– Halo modelling
– Model beam laser interaction
– Implement polarization extraction analysis
– Study of systematics and optimization of the setup
– Synchrotron radiation study, detector response to synchrotron photons
• Wakefield Higher Order Mode – Run first pass simulation and determine if Roman Pot is doable for
Compton Electron detector
• Test stand – Procure Amplifier and SAMPIC and setup bench
– Measure detector pulse width on the bench
3
In boxes, completion
expected for January 2017 R&D meeting
![Page 4: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/4.jpg)
Completed January 2017
• Simulation – Implement beam pipe in magnet
– More cross check with old simulationGEMC framework validated
– Full simulation with Interaction Region and beam pipe
– Run simulation large scale on batch farm will full setup
– Halo modelling
– Model beam laser interaction
– Implement polarization extraction analysis
– Study of systematics and optimization of the setup
– Synchrotron radiation study, detector response to synchrotron photons
• Wakefield Higher Order Mode – Run first pass simulation and determine if Roman Pot is doable for
Compton Electron detector yes
• Test stand – Procure Amplifier and SAMPIC and setup bench
– Measure detector pulse width on the bench
4
![Page 5: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/5.jpg)
On going January 2017
• Simulation – Implement beam pipe in magnet
– More cross check with old simulation
– Full simulation with Interaction Region and beam pipe
– Run simulation large scale on batch farm will full setup
– Halo modelling
– Model beam laser interaction
– Implement polarization extraction analysis
– Study of systematics and optimization of the setup
– Synchrotron radiation study, detector response to synchrotron photons
• Wakefield Higher Order Mode – Iterate simulation and improve Roman Pot performance for Compton
Electron detector
• Test stand – Procure Amplifier and SAMPIC and setup bench
– Measure detector pulse width on the bench
5
Order Jan/Feb
Modify code for 2 magnets
Few weeks
Few weeks
![Page 6: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/6.jpg)
Compton Electron Det. Rates
6
• 10 W • 1 A of beam • Green laser
• Compton and
Bremstrahlung assuming 10-9 Torr • Corresponding
radiation dose
![Page 7: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/7.jpg)
Compton asymmetry with window
7
• Roman pot design introduces a 500 mm thin steel window in front of the detector. Preliminary results with low statistics seems to show that there is
little change introduced by the window • To be confirmed with high statistics and polarization extraction analysis
![Page 8: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/8.jpg)
Compton asymmetry with window
8
• Higher statistics MC comparison
No window
500 mm window
![Page 9: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/9.jpg)
Synchrotron radiation
9
gc
e- beam
from IP
Low-Q2 tagger for
low-energy electrons
Compton electron
tracking detector
Compton photon
calorimeter
Compton- and low-Q2 electrons
are kinematically separated! Photons from IP
e- beam to
spin rotator
Luminosity
monitor
gc
Compton electron
tracking detector e- beam to spin
rotator
Electron detector not in direct view of synchrotron fan
Can see still see synchrotron X-rays bouncing on the beam pipe Can add structure and coating to reduce rate
Beam pipe wall
![Page 10: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/10.jpg)
-24-26-28-30-32-340
10
20
30
m
cm
26-Sep-16
M. Sullivan
SR fans at Polarimeter Detectors
JLEIC Collaboration Meeting Oct. 2016
Electron detector
Photon detector
Soft bend SR fans
35 kW of SR power ~11011 g/bunch (7-10 GeV e-)
Window
Oct. 5-7, 2016 10/33
![Page 11: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/11.jpg)
SR photons with one bounce
• The power and the total number of photons /bunch coming from the upstream bend and incident on the upstream beam pipe is:
– 7 GeV @ 3A 10 GeV @ 0.71A
– 35.7 kW 35.2 kW
– 1.60x1011 5.4x1010
• This is a lot of power and a lot of photons
• Assuming a 3% reflection coefficient and…
• Calculating the average SA to the detector…
JLEIC Collaboration Meeting Oct. 2016
Oct. 5-7, 2016 11/33
![Page 12: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/12.jpg)
-24-26-28-30-32-340
10
20
30
m
cm
26-Sep-16
M. SullivanJLEIC Collaboration Meeting Oct. 2016
Oct. 5-7, 2016 12/33
SR photons with one bounce
3% reflection estimate
![Page 13: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/13.jpg)
Ante-chamber method
JLEIC Collaboration Meeting Oct. 2016
-24-26-28-30-32-340
10
20
30
m
cm
26-Sep-16
M. Sullivan
151 cm Surface power density on the photon stop is 62 W/cm Eliminate single bounce photons
Oct. 5-7, 2016 13/33
![Page 14: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/14.jpg)
Synchrotron radiation summary
• Synchrotron radiation power is significant
• Reflected power most likely unacceptable using a standard beam pipe
• Power can be driven out from the detector with a dedicated chamber geometry
• Synchrotron radiation issue solved but might need to study additional radiation from synchrotron induced neutron production
14
![Page 15: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/15.jpg)
Wakefield progress
15 Z
(KO
hm
)
![Page 16: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/16.jpg)
Wakefield progress (EIC RP)
16
• Impedance evaluation interrupted after 37 hours of computation
• Estimate power deposit • 340 W for 0.4 A • 2.55 kW for 3 A
• Possible with liquid cooling • Will work on optimizing geometry • New CAD model with better geometry • Request funds for a few months of CST
license
![Page 17: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/17.jpg)
Test stand
• Compton polarimeter was demonstrated to achieve 1 % systematic with photon at 1 to 3 GeV
• Prove detector technology with pulses shorter than 100 ns eRHIC beam structure
• Crosscheck accuracy of electron detector for EIC
17
![Page 18: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/18.jpg)
Electronics
18
• Acquired • 1 channel of CIVIDEC amplifier
• Will acquire in FY2017 • SAMPIC • 32 channels sampling • Up to 8.2 GHz • Low cost 4.2 K$ • Allow study of several channels
and record very fast pulses • KU working on amplifier design
• Available electronics • 768 A/D for silicon • spare 192 channels • 32 channels analog for
silicon • 256 A/D for diamond • 96 spares channels
![Page 19: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/19.jpg)
Amplifier development
• Kansas University single channel amplifier design
• Tested with MCP PMT
• Serve as base for multichannel amplifier
19 10 ns
![Page 20: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/20.jpg)
Electronics Test Stand JLab
20
• HV supply • LV supply • VME TDC • Need to work on shielding and
grounding
![Page 21: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/21.jpg)
21
Proposal
for FY2018
![Page 22: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/22.jpg)
Modeling available for both static vacuum and Photon Stimulated
Desorption
• Molflow+ and Synrad modeling
software developed by Roberto
Kersevan
• Jason Carter, ANL, used
Molflow+/Synrad to model static and
dynamic vacuum for APS upgrade
• CAD designs of beamline are
combined with pumping speeds and
outgassing rates of elements yield
expected pressure
![Page 23: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/23.jpg)
Magnetic elements in orange, program generated synchrotron fan in green, surface hit points in red
• Magnetic elements generate synchrotron rays within 3D space
APS-U storage ring vacuum system design using SynRad/MolFlow+ with photon scattering Jason Carter, AVS 2015 presentation
How SynRad works
![Page 24: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/24.jpg)
24
Coupled simulations
• Coupling feature translates SynRad flux density rates (photons/cm2/s) to photon stimulated desorption, PSD, outgassing (mbar*L/cm2/s)
• Translations based on conditioning time and PSD yield measurements for various vacuum materials
APS-U storage ring vacuum
system design using
SynRad/MolFlow+ with photon
scattering
Jason Carter, AVS 2015 presentation
![Page 25: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/25.jpg)
Manpower 2017 Individual Institution Percentage in % Task
Alexandre Camsonne Jefferson Lab 20 Wakefield, general,postdoc
supervision
David Gaskell Jefferson Lab 5 Geant3, laser system,postodoc
supervision
Joshua Hoskins U. Manitoba 50 GEMC full simulation
Michael Sullivan SLAC advisory Synchrotron
Haipeng Wang Jlab SRF advisory Wakefield
Robert Rimmer JLAB SRF advisory Wakefield
Christophe Royon Kansas U. 5 Detector, electronics, Wakefield
Nicola Minafra Kansas U. 5 Detector, electronics, Wakefield
Michael Murray Kansas U. 5 Detector, electronics, Wakefield
25
![Page 26: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/26.jpg)
Draft FY2018 Budget
K$ direct
Total Cost With
overhead K$
Cumulative
Post doc 33 51
Travel 15 23.175 74.175
CST license 7 11 85.175
Amplifier 20 30.9 116.075
Discriminator
20 30.9 146.975
Lower chamber
10 15.45 162.425
Detector holder
7.5 11.5875 174.0125
Test flange 5 7.725 181.7375
Total 149.5 181.7375
26
Simulation, HOM
Amplifier and Discriminators for efficiency test
Test full detector
![Page 27: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/27.jpg)
Conclusions
• Full simulation running on farm : high statistics with full setup on going
• Synchrotron radiation can be a significant problem but solved with chamber design
• Preliminary RF HOM power gives 2.5 kW
No show-stoppers for Roman Pot option
• Test stand started :amplifier and DAQ
• Next proposal : – Continue simulation and optimization of detector
– Test bench : test to check timing and efficiency with full setup similar to setup that will be used in beam
– Vaccum modelling and background studies
27
![Page 28: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/28.jpg)
Backup
28
![Page 29: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/29.jpg)
Compton Asymmetry
29
Co
mp
ton
asy
mm
etry
in %
• Discrepancy of amplitude of asymmetry ( smaller than expected )
• Check with Richard, BNL generator looks fine
• Suspect input file generation or analysis script
• Asymmetry with new generator looks good and agrees with Geant 3 simulation and theoretical value
• Optimize event generator for better efficiency
Compton Edge
Compton Edge
Beam
![Page 30: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/30.jpg)
HallA Compton chamber setup
• Put a similar chamber after 3rd dipole of chicance (before electron detector.
• Starting point for future studies
30
![Page 31: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/31.jpg)
New Amplifier Concept
Original Design
A one channel board that can be use for the characterization of different solid state detectors.
• Sensors can be read-out using an external amplifier
• The amplifier can be characterized by injecting an external signal
• The 0 resistor can be removed during normal operation
• The first stage is a Charge Sensitive Amplifier
• The second stage is optimizing the output for timing
measurements
Sensors up to 20x20 mm2 can be glued and bonded.
The components can be easily changed to accommodate:
• Diamond sensors: ~1 nA bias current, both polarities,
small signal
• Silicon detectors: ~100 nA bias current, small signal
• UfSi: ~100 nA bias current, ~ larger signal
• SiPM: ~ 5 uA bias current, large signal
+/- HV < 1000 V 6 V Team Members:
Christophe Royon
Nicola Minafra
Hussein Al Ghoul
![Page 32: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/32.jpg)
New Amplifier Testing
Test beam in the north CERN area
The time resolution was measured using a SiPM and a MCP-PMT with Cerenkov bars as time reference
1: Thanks to the TOTEM Collaboration
2: Thanks to N. Cartiglia et al. : arXiv:1608.08681
DUT
Quartz bars
The detector was installed on the beam in the H8 area1 using a pre-aligned structure2
and was acquired using a remote controlled oscilloscope: Agilent DSO9254A, 8 bit at
20 Gsa/s
All the tests were conducted at room temperature.
![Page 33: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/33.jpg)
New Amplifier Testing
Performance VS Bias voltage
0
50
100
150
80 130 180 230
MP
V (
mV
)
Bias (V)
0.00
0.25
0.50
0.75
1.00
80 130 180 230
MP
V/F
WH
M
Bias (V)
y = 164.73e-0.007x
0
25
50
75
100
80 130 180 230
Tim
e r
eso
luti
on
(p
s)
Bias (V)
The sensor’s gain clearly increases when the
bias voltage is increased
The sensor’s dark current is above >
1uA when the bias voltage is above
230V
A time resolution below 30 ps was obtained, in stable running conditions, using an off-line Constant Fraction
Discriminator.
![Page 34: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/34.jpg)
New Amplifier Testing
Time difference measurements using a SAMPIC
The SAMPIC requires a calibration
procedure, a preliminary result
suggest that the performance are
1% worse than the oscilloscope:
SiPM UfSD
![Page 35: eRD15 Compton electron detector R&D · eRD15 : Compton electron detector R&D •Requirement –1% or better electron polarization measurement –Best measurement Compton electron](https://reader030.vdocument.in/reader030/viewer/2022041014/5ec5790f76e00111192dd644/html5/thumbnails/35.jpg)
Detector amplifier
• Good performance of discrete amplifier
• Can use as base for multichannel ASIC
35