the elusive neutrino: how double beta decay and the exo ... · discovery of neutrino oscillations...
TRANSCRIPT
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The elusive Neutrino:how double beta decay and the EXO experiment may help unlock its secrets
Andreas PiepkeUniversity of Alabama
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5/20/2009 IPMU 2
Why is this neutrino physics an interesting subject?Deals with conceptually clear questions.Neutrino physics allows us to study “new physics”.
It is a field driven by experiment. The findings havesometimes been surprising:• Neutrinos are massive• Flavor mixing is large
It impacts multiple disciplines:• particle physics• cosmology• astrophysics
It is even entering the realm of application:• reactor monitoring, plutonium diversion
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5/20/2009 IPMU 3
Neutrino masses are zero in the minimal Standard Model.
Extensions of the SM naturally give mν≠0.
Particle physics:
Discovery of neutrino oscillations requires adjustments to the SM. How to build neutrino masses into the Langrangian?
Open questions:• What are the values of the neutrino masses?• Are neutrinos their own anti-particles?• Is CP-violated for neutrinos?• What are the values of the 3 mixing angle and CP
phases (one for Dirac three for Majorana)?
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Astrophysics and Cosmology:
Universe contains 330 ν/cm3 (410 γ/cm3), from Big Bang. mν important ingredient for Dark Matter problem.Ων / ΩΒ < 0.3 (WMAP) Ων / ΩΒ < 3.0 (Tritium decay)ΩB = 0.047 0.006, ΩM = 0.29±0.07 and ΩTot = 1.02±0.02
Neutrinos are the only probes allowing us to “look” insideour Sun and Supernovae.
Laboratory neutrino mass measurements importantconsistency check that can be done.
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5/20/2009 IPMU 5
Observations indicate an unequal number of baryons andanti-baryons in the universe. To the best of our understandingall structures in the universe are made from matter:
Baryons and anti-baryons should have been created inequal numbers in big bang → baryon anti-baryon imbalance must have been created dynamically. This hypothesis is called baryogenesis. Imbalance poses a puzzle for particle physics.
( ) 10
γ
BB 100.166.21n
nnη −⋅±=−
=From big bang nucleo-synthesis predictingabundance of D, 3He, 4He and 7Li and theanisotropy of cosmic ray background radiation.
S. Davidson, E. Nardi, Y. Nir, arXiv:0.802.2962
The SM of particle physics contains the ingredients to explainthe imbalance (Sakharov):• Baryon number violation• C and CP violation• Out of equilibrium dynamics
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Although these ingredients exist no mechanism strong enoughto explain the observed asymmetry has been found.The observed degree of CP-violation for quarks is insufficientby many orders of magnitude. New physics such as e.g. CPviolation for leptons is needed.A mechanism called leptogenesis has been proposed tosolve this problem: heavy right handed Majorana ν (inert in SM; weak singlets) provide CP violation. Their decay in early universe created a lepton number asymmetry that is transferred into a baryon asymmetry by the so-called sphaleron process. This scenario requires Majorana neutrinos and thus double beta decay. Some models require: 0.05 eV ≤ m3 ≤ 0.15 eV.Perhaps all matter, even our own bodies, are made of theashes of heavy neutrinos that decayed in the early universe!
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5/20/2009 IPMU
Discovery of neutrino flavor oscillations showed that neutrinos are massive. Oscillation observed with:
• Solar and reactor neutrinos and anti-neutrinos: •Δm2
21, m1 < m2, sin2Θ12
• Atmospheric and accelerator neutrinos: Δm223, sin2Θ23
• LSND oscillation evidence not observed in MiniBooNE
Surprisingly small number of parameters suffices to describe variety of experiments using different methods and energies.
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What do we know about neutrino mass?
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• Measurement of energy distribution of charged Leptonsin weak decays. 2
i2
iei
2
βmUm ∑=
• Neutrino-less double decay (Dirac versus Majorana).2
ii
2eii
2
ββmUηm ∑=
How do we weigh a microscopic particle?
It turns out that nuclear double beta decay is the onlypractical way to distinguish Dirac from Majorana neutrinos.
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2j
2i
2ij
2i mmm U −≡∆
• Neutrino flavor oscillations.
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What do we know about neutrino mass assumingthree flavors?
G.L. Fogli et al., arXiv:0805:2517v3
( )019.0018.0sol
212
2
2516.019.0
2sol
221
312.0θsinθsin
eV 1067.7mm+−
−+−
==
⋅=∆=∆From experiments using solar ν and reactor ν:
From experiments using atmospheric and accelerator ν:( )
073.0058.0atm
223
2
2311.008.0
2atm
232
466.0θsinθsin
eV 1039.2mm+−
−+−
==
⋅±=∆=∆
From experiments using reactor ν:
01.0016.0θsin 132 ±=
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5/20/2009 IPMU
The measurement of the absolute mass scale,θ13 and the choice of hierarchy
are the next big challenges in neutrino physics
~3·10-3 eV2
solar~ 8·10-5eV2
solar~ 8·10-5eV2
~3·10-3 eV2
Our knowledge of the ν mass pattern
~2.3 eV
From tritium
endpoint(M
aintz and Troitsk)
~0.3 eV
From 0νββ
if νis M
ajorana
~1 eVFrom
WM
AP
Time of flight from
SN1987A
(PDG 2002)
23 eV
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48Ca→48Ti 4.271 0.18776Ge→76Se 2.040 7.882Se→82Kr 2.995 9.296Zr→96Mo 3.350 2.8100Mo→100Ru 3.034 9.6110Pd→110Cd 2.013 11.8116Cd→116Sn 2.802 7.5124Sn→124Te 2.228 5.64130Te→130Xe 2.533 34.5136Xe→136Ba 2.458 8.9150Nd→150Sm 3.367 5.6
Candidate Q Abund. (MeV) (%)
Double-beta decay:second-order process,
detectable if first order β-decay isenergetically forbidden
Candidate nuclei with Q>2 MeV
Atomic number (Z)
Atom
ic m
ass
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5/20/2009 IPMU
Cancellation of contributions of virtual intermediate states. Measured for many nuclides.Not directly relevant to ββ0ν, calibrates nuclear models
Nuclear matrix element by calculations. Uncertainty?spread of all values in literature: factor ~3.
ββ2ν-mode: ( ) 22ν2ν12ν1/2 |M|GT ⋅=
−
ββ0ν-mode: ( ) 2ββ
20ν0ν10ν1/2 mMGT ⟩⟨⋅⋅=
−
Add nuclear matrix element calculations to make suchmeasurements quantitative. Decay rates given as:
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Nuclear Matrix Elements the secondRodin, Faessler, Simkovic and Vogel (Nucl. Phys. A793 (2007)213) studied differences of different calculations.
Most nuclear models use 13 parameters which are tunedto reproduce certain observables (nuclear excitationpatterns, giant resonance, quenching of the axial-vectorcoupling constant,…)
In QRPA and RQRPA calculations ββ2ν− and ββ0ν−rates depend on normalized particle-particle interactionstrength gpp. gpp fixed to value reproducing ββ2ν−ratestabilizes calculations.
Consistent choice of input parameters and elimination ofclearly off-the-charts calculations results in a 30% spreadof nuclear calculations.
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( ) 2ββ
20ν0ν10ν1/2 mMGT ⟩⟨⋅⋅=
−
Decay rate translates into effective Majorana mass. Requires knowledgeof nuclear physics quantities.
2
ii
2eii
2mUm ∑= ηββ
CP-phases: 1
Neutrino masses
Elements upperrow of MNS-matrix
CP-phases can lead to cancellation. But how much? Replace masses by two possible choices of minimal mass m1 or m3 and add knowledge of mixing and mass splitting from oscillations.
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The problem to be solved:
76Ge : 2.3 1028 y82Se : 6.0 1027 y100Mo: 1.3 1028 y136Xe: 2.2 1028 y150Nd: 3.4 1026 y(!)Staudt et al. EPL13 (1990)
Inverted
Normal
76Ge : 2.2 1028 y100Mo: 5.9 1027 y136Xe : 1.1 1028 yRodin et al. PRC68 (2003)
After MINOS
95% CL
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2i
2
iei
2mUm ∑=β
Observable in β−end-pint experiments(KATRIN):
Conceptually cleanbut limited reach.
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Decay modes distinguished by measurement of electron sum energy.
Left: expected spectrafor 200 kg 136Xe inone year.
Right: leakage ofββ2ν-events intoββ0ν−analysis interval.5.8th power!
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How much isotope is needed to observe a 10 meV neutrino mass? This is very expensive.
Rodin et al., NP A793 (2007) 213.
( )meV 10mT01/2 =ββ
ν
1.2·1028 yrs
( )2
20
meV 1/2,500
1/2m
meV 50TTββ
νν ⋅=
18
Needs tons of sourceto have at least few decays per year!
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Primary Techniques:
• Large amount of decaying material.• Reduction of intrinsic radioactivity by finding clean materials (VERY DIFFICULT).• Control cosmogenic activition of materials.• Passive shielding of cosmic ray showers. (go underground)• Passive shielding of external radioactivity (ex: lead)• Active shielding, especially for muons, usually scintillator layers.
– High resolution calorimetry– Includes ionization, scintillation and bolometers.
With low Backgrounds and no other event discrimination, resolution typically needs to be below a couple of percent
• Spatial tracking: – Good single-site discrimination alone can reduce backgrounds significantly. – Several techniques: high-resolution wire chambers,…, coarse segmentation.
• Residual nucleus identification (EXO)• Major Distinctions:
– Source is Detector? (Improves intrinsic background, but less versatile)– Good tracking vs. good calorimetry
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IPMU
Why 136Xe?
Active detection medium in both liquid and gaseous phase. Suited for charge collection plus high yield UV scintillator (@ 3 kV/cm ~25 ph/keV,~50 e/keV, anti-correlated1). No crystal growth needed. Isotope 136Xe has reasonable natural abundance 8.9%. Noble gas, isotopic enrichment by ultra centrifugation cost effective.
No chemistry needed. Xenon can be re-purified during operation and moved to different detector
Reasonable Q-value of 2457.8±0.4 keV. Based on recent high precision mass measurement at FSU. M. Redshaw, J.McDaniel, E. Wingfield and E.G. Myers, PRL 98 (2007) 053003
Ionization potentials Xe: 12.130 eV, Ba+: 5.212 eV, Ba++: 10.004 eV → ββ−decay product atom remains charged → opens possibility of Ba removaland final state tagging through Ba single ion detection
1 XENON Collaboration data 21
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136Xe → 136Ba++ + 2e- (+ 2νe)
detect the 2 electrons (ionization + scintillation in xenon detector)
Xe TPC
e-e
-e-
e-e
-
other Ba+ identification strategies are also being investigated within the EXO collaboration
EXO detection strategy
positively identify daughter via optical spectroscopy of Ba+
[M. Moe, Phys. Rev. C 44 (1991) R931]
CCD observe single ion
ion “tip”
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Xe offers a qualitatively new tool against background:136Xe 136Ba++ e- e- final state can be identified using optical spectroscopy (M.Moe PRC44 (1991) 931)
Ba+ system best studied(Neuhauser, Hohenstatt,Toshek, Dehmelt 1980)Very specific signature
“shelving”Single ions can be detectedfrom a photon rate of 107/s
•Important additionalconstraint
•Drastic backgroundreduction
2P1/2
4D3/2
2S1/2
493nm
650nm
metastable 47s
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5/20/2009 IPMU
EXO Road Map• Goal: build 1 to 10 ton high resolution tracking TPC using enriched 136Xe. Equip with Ba-final state tagging. → This should result in extremely small if not zero random background. Envisaged sensitivity 10 meV, covers mass range allowed for inverted hierarchy.
Active R&D program under way. Explores the technical feasibility in phasedapproach.
Detect decay and vertex in TPC using liquid Xenon
Extract Ba ion using a charged probe. Transfer into ion trap, use laserpumping to identify single ion.
Research on a high pressure gas TPC and in situ detection of Ba in theXenon gas is being pursued too.
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5/20/2009 IPMU
EXO Technical PreparationBuild and operate a smaller scale TPC to demonstrate that required energy resolution and background can be achieved. Demonstrate feasibility of largescale enrichment of 136Xe.
We are building detector using 200 kg enriched Xe (at hand), being installed at WIPP, New MexicoWill demonstrate background and energy resolution.
Ba extraction, transfer and single ion detection being developed in the labin parallel.
After successful completion of these parallel research thrusts preparationof full proposal. In this plan proof of principle does not require the funding of a very costly large experiment up front.
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EXO-200:An intermediate detector without Ba tagging using 200 kg liquid xenon,
isotopically enriched to 80%136Xe
(−108° C, 3.02 g/cm3)
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EXO-200Scientific goals:
1) Measurement of yet unobserved ββ2ν decay of 136Xe. Task: T1/2 > 1022 y, ~67 dcs / (d 100 kg). Important background for EXO.
2) Test of the Heidelberg evidence for ββ0ν decay.Expectation for 136Xe [Ge range (1.92-2.67)·1025 y, (2006)]: T1/2 = (1.02–1.41)·1025 y [Rodin et al. NPA 793 (07) RQRPA]
17 − 24 dcs / (y 100 kg)= (0.38–0.53)·1025 y [Caurier et al. arXiv:0709.2137 (07) SM]
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200 kg 136Xe test production completed spring ’03 (enr. 80%)
•Largest highly enriched stockpilenot related to nuclear industry
•Largest sample of separated ββisotope (by ~factor of 10)
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25 cm Pb5 cm Cu cryostat 50 cm cryogenic
fluid HFE-7000
Thin walled CuTPCEXO-200
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Lab preparation
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EXO-200 schedule and location• Jun, 2006 Cryostat and lower Pb installed (Stanford)• Sep, 2006 First empty cool-down (Stanford)• May, 2007 Replace super insulation (Stanford) • June, 2007 Move clean rooms to WIPP• 2008 Finish underground manufacturing of TPC
components. E-beam weld pressure vessel.• 2009 Assemble and install TPC and veto at WIPP.
5/20/2009
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October 2007: clean-rooms and gowning areainstalled at WIPP.
Staging container forcomponent pre-cleaninginstalled at WIPP.
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December 2008installation of vetosupport.
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Background control
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Natural, cosmogenic and anthropogenic radioactivity content of all construction materials quantified using various techniques.EXO testing program: more than 450 material measurements.
Low background γ-counting (Th/U): 1 ppb (UA) 10 ppt (Bern)Techniques:
Mass spec (Th/U): 10 ppt GDMS, 1 ppt ICPMS (INMS Canada)NAA utilizing MIT reactor (Th/U): 0.02 to 0.3 ppt (UA)α counting for 210Pb analysis of shielding lead (via210Po): 5 Bq/kg (UA)Rn counting, PIN diode with electrostatic collection: 10 atoms (Laurentian, Canada)
Keep track of results through an elog data base.
D. Leonard et al., Nucl. Inst. Meth. A 591 (2008) 3.
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Calculate the hit efficiency in terms of events per decayfor cuts on energy deposit, track length, and distance fromdetector boundary.
Parametric Monte Carlo: spatial and energy resolution areimplemented by folding with energy deposit.Detailed source generators take into account particle correlations to not over estimate effectiveness of cuts.
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Our design goal: the sum of all background contributionsand limits will not exceed 20 / y for ββ0ν−analysis and 10 /dfor ββ2ν−analysis. Conservative as not all materials forwhich we have limits will be at or close to the limits.
We keep running log of all backgrounds during installation.
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5/20/2009 IPMU
Measurement of radioactivityat ultra trace concentration:1 ppt Th: 4 µBq/kg or 2.8 days/(decay·kg)1 ppt U: 12 µBq/kg or 0.9 days/(decay·kg)ββ2ν-decay of 80% enriched 136Xe: for T1/2 > 1022 y specific activity <8 µBq/kg
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5/20/2009 IPMU
Facilities available at UA
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5/20/2009 IPMU
The TPC
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5/20/2009 IPMU
Charge Detection Double-ended TPC chamber with ~20 cm drift regions. In
Xe about 50 e/keV → at 2480 keV results in 124,000 e-, into 1 pF equivalent charge amplifier 20 mV signal →amplify by factor 10 using shaping amplifier. Estimated noise is 500 e.
Mid-plane cathode biased at -75 kV 38 Inductive “Y” wires per side at -4 kV, 100% charge
transparent. 38 “X” wires at virtual ground to collect the charge. LXE electron mobility ~2000 cm2/(Vs) Saturation velocity ~ 0.28 cm/μs Electron lifetime goal of 3 ms → 2.4% loss at 20 cm.
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5/20/2009 IPMU
Light Detection 516 16 mm (active area) APD’s (Avalanche Photo
Diodes). QE measured to be 120% at 175 nm by NIST. Geometrical photo-coverage ~17%. Compared to PMTs
with about 30% QE corresponds to 70% coverage. Read-out: gangs of seven APD’s Yield enhanced by reflective Teflon reflectors in TPC. Chare amplifier 5 pF per gang of seven. Low gain (compared to PMT’s), of ~100. Clean materials, mostly refined silicon. Connections made by contact springs for easy
maintenance.
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5/20/2009 IPMU
Ionization alone:σ(E)/E = 3.8% @ 570 keV
or 1.8% @ Qββ
Ionization & Scintillation:σ(E)/E = 3.0% @ 570 keV
or 1.4% @ Qββ(a factor of 2 better than the
Gotthard TPC)E.Conti et al. Phys. Rev. B (68) 054201
EXO-200 will collect 3-4 timesas much scintillation…
further improvement possible
Compilationof Xe resolution
results
EXO ioniz + scint
EXO ioniz only
Energy resolution improvement in LXe
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5/20/2009 IPMU
815 APDs delivered out of 849.
812 tested.
596 working (relative QE > 0.7, noise < 3000 electrons).
516 needed 258 at each end
36 gangs of 7, one gang of 6.
APD delivery status
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5/20/2009 IPMU 45
V 20 σV 1409U
U =
=
0.11 σ0.96QE
QE
rel
=
=
e 413 σe 1215N
N =
= All tests done at liquidXe temperature (-108° C).
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5/20/2009 IPMU
Thin walledCu pressurevessel.Active parts(wires, APDs)are attached to a removableinner structure.
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5/20/2009 IPMU 47
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5/20/2009 IPMU
TPC internal structure
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5/20/2009 IPMU 49
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5/20/2009 IPMU 50
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5/20/2009 IPMU 51
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5/20/2009 IPMU 52
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5/20/2009 IPMU 53
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5/20/2009 IPMU
The Cryostat
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5/20/2009 IPMU
Etching withdilute HNO3after receiptin 2006.
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5/20/2009 IPMU 56
SuperinsulationApplication ofnew SI afterit was foundthat original SIwas too radio-active (2007).
Required design of a large extractiondevice.
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5/20/2009 IPMU 57
September 2008
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5/20/2009 IPMU
Lead Shield
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5/20/2009 IPMU
2006
59
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5/20/2009 IPMU
May 2008: installation of the“barrel section” of the lead,at WIPP.
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5/20/2009 IPMU
The Cosmic Ray Muon Veto
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5/20/2009 IPMU
EXO-200 is being installed at WIPP at a depth of 665 m ofrock/salt. The corresponding overburden is 1585 mw.w.
The vertical muon intensity has been measured to be:268±6 m-2 d-1 sr-1 by Esch et al., astro-ph/0408486.
The flux through a horizontal surface is 332 m−2 d−1
Monte Carlo estimated muon related background:ββ0ν: 15 cnts/yearββ2ν: 1100 cnts/yearThese are due to secondaries with the muon missing the TPC.
Muon veto with at least 90% efficiency needed to meetbackground goal.
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5/20/2009 IPMU
Geometricalplacement isoptimized byMonte Carlo.
To stay withinbackgroundbudget we need90% efficiency.For the chosendesign we estimate99.2% efficiency.
EXO-200 active scintillation muon veto
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5/20/2009 IPMU
31 large plastic scintillator panels, left over from the concludedKAREMEN neutrino oscillation experiment, have beenacquired.They have been refurbished, tested, and calibrated at UA. Includes gain matching of about 280 PMTs.
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5/20/2009
S23
S24
L22
IPMU 66
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5/20/2009 IPMU 67
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Assemble roof supports first.
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Add panel tracks for south face loading.
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Install overlapping panel supports.
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Assemble West face shelves and panels.
Lowest edge of all panels is 5” above the bottom of Mod. 1 support frame.
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Protective covers
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Lifting jig concept for South face loading of roof panels.
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Install south face shelves and panels.
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Install overlapping shelves and panels.
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5/20/2009 IPMU
Assumptions: 1) 200kg of Xe enriched to 80% in 1362) σ(E)/E = 1.4% obtained in EXO R&D, Conti et al Phys Rev B 68 (2003) 0542013) Low but finite radioactive background:
20 events/year in the 2σ interval centered around the 2.46MeV endpoint4) Negligible background from 2νββ (T1/2>1·1022yr R.Bernabei et al. measurement)
EXO-200 Majorana mass sensitivity
Case Mass(ton)
Eff.(%)
Run Time(yr)
σE/E @ 2.5MeV
(%)
RadioactiveBackground
(events)
T1/20ν
(yr, 90%CL)
Majorana mass(meV)
QRPA1 NSM2
EXO-200 0.2 70 2 1.6* 40 6.4 1025 133 186
1) Rodin, et. al., Nucl. Phys. A 793 (2007) 213-2152) Caurier, et. al., arXiv:0709.2137v2
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5/20/2009 IPMU
What if the Heidelberg signal is due to ββ0ν−decay ? Central value T1/2 (Ge) = 2.23+0.44
-0.31 ·1025, ( 3σ) (MPL A 1547 (06)
20νXe
0νXe
0νXe1/2,
2ββ20ν
Ge0νGe
0νGe1/2, MGT
1mMGT
1
⋅⋅=⟩⟨=
⋅⋅
In 200 kg EXO, after 2 yrs of life time:
Worst case (RQRPA, upper limit, α=0.53): 46 events on top of 40 events bkgd 5.0 σ
Best case (NSM, lower limit, α=0.20): 170 events on top of 40 bkgd 11.7 σ
A Ge and Xe experiment have the neutrino mass in common:
0νGe1/2,
0νGe1/2,20ν
Xe0νXe
20νGe
0νGe0ν
Xe1/2, TαTMG
MGT ⋅=⋅
⋅
⋅=
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5/20/2009 IPMU
Ba single ion detection
96
Out of time?Skip to end
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5/20/2009 IPMU
ββ decay observables
Daughter nucleus
Energy deposition from two e-
136Xe 136Ba++
e- e-
νe νe
a.u.
(T1+T2)/Qββ
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5/20/2009 IPMU
Ba Grabber
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5/20/2009 IPMU
Problem: efficiently remove Ba++ ion from Xenon andrelease it into an ion trap for laser detection.
It turns out that not the “attraction” part is the biggestproblem but the release. Answer: cover a charged tip witha very thin layer of Xe ice (few mono-layers) which isthawed for release.
Several approaches have been explored, field emission,ice coating, resonance ionization…
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5/20/2009 IPMU
Cryogenic dipstick•Capture ion on SXecoating•LHe cooling (~20K) to
maintain stable SXecoatingin 10-8 torr vacuum•Microcapacitor used to
measure and stabilizeSXe with accuracy ofa few monolayersin LXe andvacuum
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Prototype grabber andlinear ion trap at Stanford.
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Single Ion Detection
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Reference Cavities
Stable laser tagging system
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Linear trapGas purifier systemGrabber insertion port
Laser injectionoptics
RF/DC feed
Microscope& readout
Lasers
Referencetrap
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Ba+ Linear Ion Trap
Vcos(Ωt) + U
U
Ba oven
DC
pot
entia
l [V
]
0 Volts
-5 Volts
BaBuffer gas
CCD
e- gun
Spectroscopy lasers
Scope
• High ion loading efficiency observed.
• Ions loaded at one end will travel to the other.
• Ions can be manipulated by changing DC
potential configuration.
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Ion signal as a function of time as ions are loaded and unloaded from the linear trap. The quantized structure demonstrates our ability to detect single atoms in a buffer gas with high S/N.
0 ions
1 ion
2 ions
3 ions
4 ions
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Histogram of ion fluorescence signal. With a 5 sec integration the signal from 1 ion is distinguishable from background at the 8.7σlevel.
0 ions 1 ion 2 ions 3 ions 4 ions
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Assumptions: 1) 80% enrichment in 1362) Intrinsic low background + Ba tagging eliminate all radioactive background3) Energy res only used to separate the 0ν from 2ν modes:
Select 0ν events in a ±2σ interval centered around the 2.46 MeV endpoint4) Use for 2νββ T1/2 > 1·1022 yr (Bernabei et al. measurement)
* s(E)/E = 1.4% obtained in EXO R&D, Conti et al Phys Rev B 68 (2003) 054201† s(E)/E = 1.0% considered as an aggressive but realistic guess with large light
collection area1) Rodin, et. al., Nucl. Phys. A 793 (2007) 213-2152) Caurier, et. al., arXiv:0709.2137v2
EXO neutrino effective mass sensitivity
Aggressive
Conservative
Case
7.3
33
5.3
24
Majorana mass(meV)
QRPA1 NSM2
0.7 (use 1)
0.5 (use 1)
2νββBackground(events)
4.1*10281†107010
2*10271.6*5701
T1/20ν
(yr, 90%CL)
σE/E @ 2.5MeV
(%)
Run Time(yr)
Eff.(%)
Mass(ton)
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ConclusionThe next generation ββ−experiments hope to observe this decay.
Unambiguous evidence will be important for making a clear case that Neutrinos are Majorana particles.
To achieve this we will need experiments using different methods anddifferent nuclides. In case of success this would give some handle onthe matrix element calculations and their spread.
This goal requires both high resolution calorimetric and tracking detectors.EXO is the only project with an independent decay tag.
Both EXO-200 and the atom tagging technique are under active development.EXO-200 is fully funded and under construction.
Stay tuned! First data will come soon.
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The EXO team
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