SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue HALO - a Helium and Lead Observatory...
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Transcript of SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue HALO - a Helium and Lead Observatory...
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
HALO - a Helium and Lead
ObservatoryOutline
• Overview• Motivation / Physics• SNEWS• Signal and Backgrounds• Monte Carlo studies• Further Work
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
• Use materials on hand (Phase 1)– 80 tonnes of Pb from decommissioned Deep
River Cosmic-ray station– 3He proportional counter neutron detectors plus
DAQ from SNO; plus possibly 10BF3 counters
• To produce a – Low cost– Low maintenance– Low impact in terms of lab resources (space)– Long-term, high livetime
Supernova detector
Overview – an opportunity
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
• Galactic supernova are rare / little known• Unique opportunity for particle physics,
astronomers, SN dynamics• SNEWS• Lead; high x-sect.,
low n cap. x-sect.
Motivation / Physics
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
Neutrinos from supernovae
• Neutrinos leaving star are expected to be in a Fermi-Dirac distribution according to escape depth:
• Oscillations redistribute neutrino temperatures
• SK, Kamland are primarily sensitive to νe
• HALO’s sensitivity to νe and NC valuable
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
• Inter- experiment collaboration to disseminate the news of a galactic SN
• Coincidence between detectors required in 10 second window
• SNEWS is “live” – a “GOLD” coincidence would be sent to subscribers; “Individual” non-coincident alerts also possible now
• > 250 subscribers to e-mail distribution list• > 2000 amateur subscribers through Sky & Telescope• GCN (Gamma-ray burst Coordinates Network)
• HALO could bridge a gap between SNO and SNO+
SNEWS – Supernova Early Warning System
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
SNO’s NCD 3He counters
Current plan is for NCD removal from SNO in February & March of 2007.
Close to 700 m of low background 3He counters would be stored underground until HALO deployment.
Space in SNOLAB available early 2008.
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
NCD Energy Spectrum
191-keV shoulder from proton going into the wall
764-keV peak
Energy spectrum from one NCD string with an AmBe neutron source.
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
SN neutrino signal in HALO – Phase 1
• In 80 tons of lead for a SN @ 10kpc†,– Assuming LMA, FD distribution around
T=8 MeV for νμ’s, ντ’s.– 68 neutrons through νe charged current
channels• 30 single neutrons• 19 double neutrons (38 total)
– 21 neutrons through νx neutral current channels
• 9 single neutrons• 6 double neutrons (12 total)
~ 89 neutrons liberated; ie. 1.1 n/T
†- Engel, McLaughlin, Volpe, Phys. Rev. D 67, 013005 (2003)
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
Phase 1 Work – 80 Tonne detector– Use lead in its current geometry– Shown with single NCD per column of lead
(total of 95 m of counters)
Monte Carlo Studies - GEANT
88 kg / block865 blocks8 kg /cm 3He
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
Optimize for capture efficiency as function of moderator thickness
Monte Carlo Studies – Phase 1
42% capture efficiencyfor 6mm polypropylenemoderator
Done in a fiducial volumeto avoid confusion fromedge-effects and to understand maximumefficiency.
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
However, with only 80 T the volume-averaged efficiency falls to 17.5% (60% loss relative to “fiducial volume” one)
Add reflector
• 20 cm water adequate• recover to 25% capture efficiency (volume averaged); 40% loss• reduces external neutron background
• from 0.1Hz from thermal flux to 0.002Hz• from ~ Hz to 0.04 Hz for fast flux
Monte Carlo Studies – Phase 1
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
Other Backgrounds
• Internal alphas in n-region– 3.5x10-4 Hz*Length/200m
• Cosmic ray induced neutrons – 1.3x10-5(ε) Hz– Multi-neutron bursts thermalize in ~200μs
• Gamma Backgrounds – < 1x10-5 Hz
ie. small for burst detection, but still a need for more detailed simulation of backgrounds with emphasis on external neutrons
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
Monte Carlo Studies – Phase 1
# NCDs per column
Total NCD length
Pb / 3He ratio(80 Tonnes Pb
- Phase 1)
Neutron Capture
Efficiency(vol. aver.)
Detected Neutrons
(SN @ 10kpc)
1 95 m 8 kg/cm 25% 22
2 190 m 4 kg/cm 35% 31
3 285 m2.7
kg/cm41% 36
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
Monte Carlo Studies – Phase 2
Optimize for full 700m of3He counters (and possibly 140 m of 10BF3 counters)
Allow for modification of block geometry and for purchase of additional Pb.
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
Phase 2 Monte Carlo Studies
• Choice of moderator– D2O versus polypropylene?
• Twice the volume required; O($700K)• No significant gain in neutron capture efficiency
– dominated by neutron leakage not competition for neutron capture
• Stick with plastics!
• Distribution of moderator– various options simulated– best efficiency and least material for
moderator surrounding 3He counters
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
Monte Carlo Studies
Pb / 3He ratio(700 m NCDs
- Phase 2)Tonnes of Pb
Neutron Capture
Efficiency(fid. volume)
Detected Neutrons
(SN @ 10kpc)(Phase 1)
Detected Neutrons **
(SN @ 10kpc)(Phase 2)
14 kg/cm 1000 55% --- 432
8 kg/cm 560
60%(cf. 42% - phase
1)
22/80 T 238
4 kg/cm 280 79% 31/80 T 131
2.7 kg/cm
189 83% 36/80 T 83
** - preliminary
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
Phase 2 Interpretation - More is better; but what is optimum?
• # of 2n events detected varies mass * capture efficiency 2
• Optimizing on m*ε2 with fiducial volume efficiency suggests optimum
near 1.5kT, but- insufficient points done- needs further MC work to define
Good news– 1 kT of Pb occupies a cube only 4.5 m on a side; O($1M
material)
Detailing costing and design for Phase 2 still to come …
Monte Carlo Studies
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
• Continue with refinement of MC work– SN modeling; sensitivity of Phase 2 to additional
physics– update Pb cross-sections, neutron energy
distributions– Modeling of backgrounds – finalize design of Phase 2 detector
• Engineering work for Phase 1 installation• Get ready for installation as space becomes
available
Further Work
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
SNOLAB Requirements – Phase 1
• 3x3x3m cube for optimum efficiency– Other configurations are possible
• Hallway would be optimum for future expansion
• Overhead crane for setup and movement• UPS power and remote access for 100%
livetime• Early start date
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
Capital costs 05-06 $CDNUnit cost Unit Qty Total
Move 80 tonnes Pb to 6800 18,000Etch surface 5,000Move to final location 1,000Schedule 80 PP moderator tubing 20 m 90 1800Steel platform 2000Framework for detector/reflector 3000Water boxes 3 box 400 1200Side panels 100 ea 5 500
Mechanical SubTotal 32,500RF caps 10 ea 50 500Preamp connector and SHV 30 ea 50 1500HV power supplies 700 ea 4 2800LV power supplies 500 ea 4 2000Rack 500 ea 1 500VME crate 3000 ea 2 6000Bit3 3500 ea 2 7000Shaper/ADCs 2000 8-ch card 12 24000Preamps 100 ea 100 10000Cables 1 batch 5000 5000Computer 5000 ea 2 10000Fiber Optic LAN 3000 ea 2 6000
Electronics Subtotal 75300Labor 50000Travel 20000Subtotal 177,800Contingency 0.2 35560TOTAL 213,360
Draft Budget – Phase 1
Thanks to CharlesDuba for this and other slides from his presentation at SNOLAB Workshop III
SNOLAB Workshop V, Sudbury, 21-23 August 2006 C.J. Virtue
Collaboration “Members” as of 8/05
University of WashingtonPeter Doe, Charles Duba, Joe Formaggio, Hamish Robertson, John
Wilkerson
Laurentian UniversityJacques Farine, Clarence Virtue, Fabrice Fleurot, Doug Hallman
Los Alamos National LaboratoryJaret Heise, Andrew Hime
Lawrence Berkeley National LaboratoryKevin Lesko
Carleton UniversityCliff Hargrove, David Sinclair
Queen’s UniversityFraser Duncan, Tony Noble
Duke UniversityKate Scholberg
University of Minnesota DuluthAlec Habig