Owned and operated as a joint venture by a consortium of Canadian universities via a contribution through the National Research Council Canada Propriété d’un consortium d’universités canadiennes, géré en co-entreprise à partir d’une contribution administrée par le Conseil national de recherches Canada
Canada’s national laboratory for particle and nuclear physics Laboratoire national canadien pour la recherche en physique nucléaire
et en physique des particules
Accelerating Science for Canada Un accélérateur de la démarche scientifique canadienne
ARIEL II: Phase 1 and 2
Marco Marchetto | ARIEL Front End Project Co-Leader | TRIUMF
OUTLINE
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 2
o ARIEL II overview o ARIEL II – Phase1
• Target • Beam line inside the target hall • Beam line outside the target hall
o ARIEL II – Phase2 • RFQ coolers • HRS • EBIS • Nier-type spectrometer
o Conclusion
OUTLINE
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 3
o ARIEL II overview o ARIEL II – Phase1
• Target • Beam line inside the target hall • Beam line outside the target hall
o ARIEL II – Phase2 • RFQ coolers • HRS • EBIS • Nier-type spectrometer
o Conclusion
ARIEL II overview
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 4
ARIEL II overview
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 5
ARIEL II overview
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2
o The Advanced Rare IsotopE Laboratory (ARIEL) is an ISOL facility for RIB production
o Two driver beams: electrons (e-linac) and protons (BL4N)
o Two independent target stations: ARIEL target west (ATW) and east (ATE) with relative pre-separator
o A medium and a high resolution mass separator (HRS)
o An electron beam ion source (EBIS) type charge breeder with associated Nier-type spectrometer
o An electrostatic switchyard to connect to the ISAC experimental areas
6
e-linac
BL4N
ATE
HRS
ATW
EBIS
OUTLINE
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 7
o ARIEL II overview o ARIEL II – Phase1
• Target • Beam line inside the target hall • Beam line outside the target hall
o ARIEL II – Phase2 • RFQ coolers • HRS • EBIS • Nier-type spectrometer
o Conclusion
ARIEL II Phase 1 – West Target to β-NMR
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 8
ARIEL II Phase 1 – West Target to β-NMR
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 9
o ISAC β-NMR facility can run 8Li beam for 20 weeks (vs. current 5) o Utilize the e-linac capability at 30 MeV, 100 kW for photo-production
(2017)
ARIEL II Phase 1 – ATW
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 10
o Target station concept: • Up to 100 kW electron target/converter • Up to 50 kW proton target
o Evaluating ISAC vs ISOLDE, and considering alternative approach o 8Li from BeO target with photo-production (Nikita Bernier master thesis)
ARIEL II Phase 1 – ATW
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 11
o Team working on the target station concepts: • Engineers from Remote handling • Target and ion source chemists and physicists • Nuclear engineer from target group • Radio protection group • Beam dynamics physicists • TRIUMF service groups (vacuum, mechanical, electric…) • VECC collaborators
o Two target stations and beam lines to be designed and built: one for the VECC laboratory (according to memorandum of understanding MOU3)
ARIEL II Phase 1 – beam line inside target hall
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 12
o Electrostatic beam line with remote handling capability o New design of the vacuum enclosure o Including pre-separator magnet and image selection slit to
contain most of the radioactivity inside the target hall o Output beam parameters matching the input of the standard
ISAC low energy beam transport (LEBT) periodic section o 9 meters long section
3
15.00 mm (Horiz) 10.0 Deg (Long.)
15.00 mm (Vert)
Length= 6721.74mm
1
2 Q 3 4 Q 5 6 Q 7 8 Q
9
10
11 Q
12
13 Q
14
15
16 Q
17
18 Q
19
20 21 Q 22 23 Q 24 25 Q 26
27
28 E
29 30 E
31
32 33 Q 34 35 Q 36 37 Q 38
39
40 Q
41
42 Q
43
5.000 mm X 10.000 mrad
H A= 0.0000 B= 0.20000 V A= 0.0000 B= 0.20000
5.000 mm X 10.000 mrad
H A= 0.93631 B= 0.82855 V A=-0.93675 B= 0.82844
Target Periodic matching Pre-separator
ARIEL II Phase 1 – beam line outside target hall
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 13
o Use of standard TRIUMF electrostatic beam optics sections o Vacuum enclosure similar to the new cyclotron vertical injection line
• Required vacuum of 10-8 Torr to reduce beam losses • Technology: metal seals, modular element, standard vacuum
components o 44 meter long section
Periodic section
90 degree bender Cross
OUTLINE
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 14
o ARIEL II overview o ARIEL II – Phase1
• Target • Beam line inside the target hall • Beam line outside the target hall
o ARIEL II – Phase2 • RFQ coolers • HRS • EBIS • Nier-type spectrometer
o Conclusion
ARIEL II Phase 2 – CANREB (CANadian Rare isotope facility with Electron Beam ion source)
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 15
ARIEL II Phase 2 – CANREB (CANadian Rare isotope facility with Electron Beam ion source)
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 16
o High mass (A>30) RIB delivery requires the ISAC charge breeder (ECR) o Despite recent success (94Sr experiment) the ECR background (107 pps)
limits the purity and the deliverable RIB species (103 pps) o CANREB enables the delivery of high purity charge bred RIB from ISAC
(2017-2018)
CANREB – status
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 17
CANREB – RFQ coolers
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 18
o Both based on the existing TITAN RFQ cooler (buffer gas beam cooling)
o HRS cooler required to reduce the transverse emittance of the beam
o EBIS cooler required to bunch the beam
TITAN RFQ cooler
TITAN EBIS
TITAN RFQ cooler
CANREB – High Resolution Separator
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 19
o Defined layout (HRS workshop) o Beam dynamics corrected to fifth order (COSY∞) o Dipole design (OPERA): radius of curvature 1.2 m,
90 degree bending angle, 27 degree entrance and exit pole faces. Built by Advanced Cyclotron System Inc. (ACSI) on TRIUMF design
From HRS RFQ cooler
To EBIS RFQ cooler
ε90% (µm) ∆E90% (eV) RFQ Cooling M/∆M
6 1 No 10,000 3 2 Yes 20,000
CANREB – EBIS
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 20
o EBIS technology is “background free” beam (103 pps)
o Requirements at injection (RFQ cooler output): • ε95%=10 µm • 106 ions/bunch • Up to 100 Hz
o Output emittance ε95%=50 µm o Required minimum efficiency of 20%
for A/q=7 o Designed and built by the Max Plank
Institute for Nuclear Physics group in Heidelberg (TITAN EBIS)
CANREB – Nier-type spectrometer
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 21
o Energy selection: ∆E95%=100 eV with 90 (45+45) degree electrostatic bender o Resolving power M/∆M=200 with 90 degree magnetic dipole o NSERC application for students to investigate charge state breeding
To and from EBIS
From EBIS RFQ cooler To ISAC
RFQ
OUTLINE
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 22
o ARIEL II overview o ARIEL II – Phase1
• Target • Beam line inside the target hall • Beam line outside the target hall
o ARIEL II – Phase2 • RFQ coolers • HRS • EBIS • Nier-type spectrometer
o Conclusion
Conclusion
November 14, 2013 IPR 2013 - ARIEL II: Phase 1 and 2 23
o ARIEL II Phase 1 will enable science with electrons to the β-NMR program (2017)
o ARIEL II Phase 2 will enhance the ISAC RIB high mass program utilizing ARIEL infrastructure (2017-2018)
o Both phases are proceeding according to plan
Owned and operated as a joint venture by a consortium of Canadian universities via a contribution through the National Research Council Canada
Propriété d’un consortium d’universités canadiennes, géré en co-entreprise à partir d’une contribution administrée par le Conseil national de recherches Canada
Canada’s national laboratory for particle and nuclear physics Laboratoire national canadien pour la recherche en physique nucléaire
et en physique des particules
Thank you! Merci
TRIUMF: Alberta | British Columbia | Calgary | Carleton | Guelph | Manitoba | McGill | McMaster | Montréal | Northern British Columbia | Queen’s | Regina | Saint Mary’s | Simon Fraser | Toronto | Victoria | Winnipeg | York