Large Underground Xenon Dark Matter Search Matthew Szydagis, University of California at Davis.
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Transcript of Large Underground Xenon Dark Matter Search Matthew Szydagis, University of California at Davis.
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LLarge arge UUnderground nderground XXenonenonDark Matter SearchDark Matter Search
Matthew Szydagis, University of California at DavisMatthew Szydagis, University of California at Davis
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The LUX Collaboration
Richard Gaitskell PI, ProfessorSimon Fiorucci Research AssociateMonica Pangilinan PostdocJeremy Chapman Graduate StudentCarlos Hernandez Faham Graduate StudentDavid Malling Graduate StudentJames Verbus Graduate Student
Brown
Thomas Shutt PI, ProfessorDan Akerib PI, ProfessorMike Dragowsky Research Associate ProfessorCarmen Carmona PostdocKen Clark PostdocTom Coffey PostdocKaren Gibson PostdocAdam Bradley Graduate StudentPatrick Phelps Graduate StudentChang Lee Graduate StudentKati Pech Graduate Student
Case Western
Bob Jacobsen ProfessorJim Siegrist ProfessorBill Edwards EngineerJoseph Rasson EngineerMia ihm Graduate Student
Lawrence Berkeley + UC Berkeley
Masahiro Morii PI, ProfessorMichal Wlasenko PostdocJohn Oliver Electronics Engineer
Harvard
Adam Bernstein PI, Leader of Adv. Detectors GroupDennis Carr Mechanical TechnicianKareem Kazkaz Staff PhysicistPeter Sorensen Postdoc
Lawrence Livermore
University of Maryland
Xinhua Bai PI, Professor, Physics Group LeaderMark Hanardt Graduate Student
Frank Wolfs PI, ProfessorWojtek Skutski Senior ScientistEryk Druszkiewicz Graduate StudentMongkol Moongweluwan Graduate Student
James White PI, ProfessorRobert Webb ProfessorRachel Mannino Graduate StudentTyana Stiegler Graduate StudentClement Sofka Graduate Student
Mani Tripathi PI, ProfessorRobert Svoboda ProfessorRichard Lander ProfessorBritt Hollbrook Senior EngineerJohn Thomson Senior MachinistMatthew Szydagis PostdocJeremy Mock Graduate StudentMelinda Sweany Graduate StudentNick Walsh Graduate StudentMichael Woods Graduate StudentSergey Uvarov Graduate Student
SD School of Mines
Texas A&M
UC Davis
Carter Hall PI, ProfessorDouglas Leonard Postdoc
Daniel McKinsey PI, ProfessorPeter Parker ProfessorJames Nikkel Research ScientistSidney Cahn Lecturer/Research ScientistAlexey Lyashenko PostdocEthan Bernard PostdocBlair Edwards PostdocLouis Kastens Graduate StudentNicole Larsen Graduate Student
Dongming Mei PI, ProfessorWengchang Xiang PostdocChao Zhang PostdocOleg Perevozchikov Postdoc
University of Rochester
U. South Dakota
Yale
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The most recent The most recent collaboration meeting collaboration meeting was held in Lead, SD was held in Lead, SD in March 2011.in March 2011.
Collaboration was formed in 2007 and fully funded by DOE and NSF in 2008.
LIP CoimbraIsabel Lopes PI, ProfessorJose Pinto da Cunha Assistant ProfessorVladimir Solovov Senior ResearcherLuiz de Viveiros PostdocAlexander Lindote PostdocFrancisco Neves PostdocClaudio Silva Postdoc
UC Santa Barbara
Harry Nelson PI, ProfessorDean White EngineerSusanne Kyre Engineer
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Direct detection of WIMP dark matter
~300 proton massesper liter of space.
If MWIMP = 100 GeV,then 3 WIMPs/L.
Typical orbital velocity~ 230 km/s,
or 0.1% speed of light.
Coherent scalar interactions:
proportional to A2.
Rate < 1 event / kg / 100 days, or much, much lower 2
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• Energy usually deposited in 2 channels
• Excitation => scintillation in liquid (S1)
• Ionization => more scintillation in liquid (e-’s recombine) or in the gas (S2)
• Energy lost to heat for nuclear recoils. Makes signal smaller, but helps make them different.
The Physics of Noble Element Scintillation
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Self-shielding of LXe, a dense liquid, is extremely powerful
Fiducial volume cut rejects most backgrounds
hard for a gamma or a neutron to cross the full
volume without scattering more
than once
low-energy gammas that can
mimic a WIMP should not even make it to the
fiducial volume
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external neutrons and gammas have to face
water shield first anyway…
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ElectronRecoils
Ionization-to-scintillation ratio allows discrimination between common radioactivity and WIMP events.
Background rejection factor of 99.5%.Well-established technology and methodology
(XENON10/100, Xed, LUX0.1, ZEPLIN-III, others).
C.E. Dahl, Ph.D. Thesis, 2009
NuclearRecoils
vs.
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The WIMP Hunters’ Hut in the HillsThe WIMP Hunters’ Hut in the Hills Homestake (Lead, SD) — once an Homestake (Lead, SD) — once an AuAu mine mine
Davis Cavern @ Homestake, March 2011
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Davis Cavern @ Homestake, March 2011(Former Home of the Homestake Solar Neutrino Experiment)
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Dual-Phase Liquid Xenon Time Projection Chamber (TPC), 350 kg in total massO(1) kV/cm drift field in liquid, and O(10) kV/cm field in the gas stage for S2 production122 Hamamatsu R8778 PMTs are divided equally between top and bottom3-D imaging via TPC technique defines 100 kg fiducial mass, self-shielding used
6 m diameter H2O Cerenkov shield around
Aspect ratio of 1.2 : 1
LUX Detector - Overview
Animations: Harvard-Smithsonian Center for Astrophysics, Annenberg Media
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Gaitskell - Brown University / LUX
LUX Detector - Overview
Titanium Vessels
Dodecagonal field cage+ PTFE reflector panels
PMT holding copper plates
Counterweight
Feed-throughs for cables / pipesLN bath column
Radiation shield
49 cm
59 cm
Cathode grid
Anode grid
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LUX – Surface Facility @ Homestake
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Test deployment of LUX in the Surface Facility Water Tank – April 2011
Recent progress: LUX cryostat successfully cooled to liquid xenon temperature – May 2011.
Putting it all together on the surface first…
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Photomultiplier Tubes (PMTs)
• Hamamatsu R8778 (2’’ diameter)
• Gain of 3.3 x106 (DM search mode)
• Average QE of 33% at room temperature
_and 178 nm wavelength
PMTs and Signals
See talk of C.H. Faham (Photon Detectors) for more information on the PMTs we use12
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• Custom-built analog electronics and custom-built digital trigger• Can identify S1 and S2 pulses in real time, trigger on S1, S2, or S1+S2 for events• Specially shaped signals for the digitizer, digital trigger, and analog trigger• 1.5 kHz acquisition rate w/o dead time => dark matter calibrations w/ zero dead time• 99.99% zero suppression, and can trigger by position and by energy• 95% of single photoelectrons constitute >5σ upward fluctuation in baseline noise• 120 keVee dynamic range with dark matter search gains
Data Acquisition System Schematic
LUX DAQ paper in preparation
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• 24 pretrigger samples and 31 posttrigger samples recorded• Rolling average of baseline recorded with each pulse (16, 32, 64, or 128 samples)• 2 double-hagenauer filters (S1 and S2) and robust threshold logic
Pulse Only Digitization (POD) Mode and DDC-8 Trigger System
See poster of J. Chapman for more information on the DAQ system 14
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Case Western Reserve University
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1.5 ppt Kr
open leak valve
New analytic technique to detect krypton at the part-per-trillion level
arXiv:1103.2714v1
GOAL: O(10) ppt 85Kr- Leads to an event rate of O(0.1) events in the 2-10 keVee regime after 104 kg-days and 99.5% rejection of e- recoils
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Residual Gas Analyzermass spectrometer
LN2
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source strengths chosen such that there in no pileup (200 Hz is max)
137Cs208TlAm/Be252Cf
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Simulations• Very thorough and flexible
Geant4 simulation of the geometry: LUXSim
– For understanding the light collection efficiency for the PMTs
– For helping know the physics reach
– Component-centric approach in Geant
– Includes the small background contributions from all the components: decay chain generator
– 3-D visualization with OpenGL: shoot particles
• Results in minutes or hours at most with 105 - 106 events, analysis fast
S2 (prelimi-nary)
-LUXSim paper in preparation-decay chain generator paper: arXiv:1104.2834-scintillation physics: arXiv:1106:1613
S1
M. Woods
D. Stolp
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• Red Points: WIMP events after only 40 days assuming a WIMP model for mass 100 GeV at current best 90% CL exclusion sensitivity
• Blue Points: Total # of single scatter electron recoil events (before any cuts) after 40 days of running
• LUX – strong emphasis on WIMP discovery / Plan to run LUX for 300 days
XENON100 4,000 kg-days for comparison. Note much higher electron recoil rate
LUX Monte Carlo of the First 40 days
D. Malling
arXiv:1104.2549v1
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Cryogenics: Thermosyphon Cooling System
• TS successfully run in May 2011.• Max cooling rate is 1 K/hr. • Held target temperature (175-185 K) for days with 50 W PID heaters.• Heat exchange system more than 95% efficient.• See talk of A.W. Bradley for more information
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LUX dark matter sensitivity
Status: LUX is now being tested on the surface at Homestake.Moving underground in December of 2011.
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CDMS 2009
SuperCDMS 2-ST
XENON100 2011
LUX 30,000 kg-days
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• Projections based on
– Known background levels
– Previously obtained electron attenuation lengths
– Previous discrimination factors
Evolution over Time
• Careful fiducial volume selection
– <1 nuclear recoil event during planned exposure (total)
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LUX (constr: 2009-2010, ops: 2011-2012)100 kg x 300 daysLZS (constr: 2012-2013, ops: 2014-2015)1,500 kg x 500 daysLZD (constr: 2015-2017, ops: 2018-202013,500 kg x 1,000 daysNOTE: Masses not finalized.‘S’->Sanford Lab. ‘D’->DUSEL.
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• Two signals: discrimination between nuclear, electron recoils when looking at ratio of S2 to S1
• Self-shielding of Xe helps you even more
• Powerful and flexible LUX DAQ
• Proven 85Kr removal and measurement systems
• Thorough calibration with different sources inside and out
• Robust Monte Carlo simulation of geometry and physics
• Proven cryogenic system
• Incredible discovery potential
• Undergoing testing on surface right now, with the underground deployment around the corner
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A Brief Summary
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Extra Slides
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Can also detect electronegative impurities at a less than 1 ppb level
open leak valve,bypass gas purifier
flow through flow through gas purifiergas purifier
bypassbypassgas purifiergas purifier
Xe is constant due to cold trap
18 ppb N2
5 ppb O2
0.25 ppb CH4
close leakclose leakvalve to measurevalve to measure
backgroundsbackgrounds
~few ppm Ar
arXiv:1002.2742
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Heat Exchanger Operates >96% EfficientDemonstrated - 18 W required to circulate 0.4 tons of Xe a
dayEvaporate Liquid > Gas / Purification -> Re-condense Liquid
LUX 0.1