the sudbury neutrino observatory. neil mccauley university of pennsylvania nufact 04 27 th july 2004
TRANSCRIPT
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The Sudbury Neutrino Observatory.
Neil McCauleyUniversity of Pennsylvania
NuFact 0427th July 2004
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Summary
Introduction to SNO. Solar Neutrino Analysis. Other Physics Topics. Deployment and Commissioning of 3He
Proportional Counters. Conclusions.
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The SNO Collaboration
T. Kutter, C.W. Nally, S.M. Oser, T. Tsui, C.E. Waltham, J.Wendland
University of British Columbia
J. Boger, R.L. Hahn, R. Lange, M. YehBrookhaven National Laboratory
A.Bellerive, X. Dai, F. Dalnoki-Veress, R.S. Dosanjh, D.R. Grant,
C.K. Hargrove, R.J. Hemingway, I. Levine, C. Mifflin, E. Rollin, O. Simard, D. Sinclair, N. Starinsky, G. Tesic, D. Waller
Carleton University
P. Jagam, H. Labranche, J. Law, I.T. Lawson, B.G. Nickel, R.W. Ollerhead, J.J. Simpson
University of Guelph
B. Aharmim J. Farine, F. Fleurot, E.D. Hallman, A. Krüger, S. Luoma, M.H. Schwendener, R. Tafirout, C.J. Virtue
Laurentian University
Y.D. Chan, X. Chen, C. Currat, K.M. Heeger, K.T. Lesko, A.D. Marino, E.B. Norman, C.E. Okada, A.W.P. Poon,
S.S.E. Rosendahl, R.G. StokstadLawrence Berkeley National Laboratory
M.G. Boulay, T.J. Bowles, S.J. Brice, M.R. Dragowsky, S.R. Elliott, M.M. Fowler, A.S. Hamer, J. Heise, A. Hime,
G.G. Miller, R.G. Van de Water, J.B. Wilhelmy, J.M. WoutersLos Alamos National Laboratory
S.D. Biller, M.G. Bowler, B.T. Cleveland, G. Doucas, J.A. Dunmore, H. Fergani, K. Frame, N.A. Jelley, J.C. Loach, S. Majerus, G. McGregor, S.J.M. Peeters,
C.J. Sims, M. Thorman, H. Wan Chan Tseung, N. West, J.R. Wilson, K. ZuberOxford University
E.W. Beier, H. Deng, M. Dunford, W. Frati, W.J. Heintzelman, C.C.M. Kyba, N. McCauley, M.S Neubauer, V.L. Rusu, R. Van Berg, P. Wittich
University of Pennsylvania
S.N. Ahmed, M. Chen, F.A. Duncan, E.D. Earle, H.C. Evans, G.T. Ewan, B. G Fulsom, K. Graham, A.L. Hallin, W.B. Handler, P.J. Harvey, L.L Kormos, M.S. Kos, C.B. Krauss, A.V. Krumins, J.R. Leslie, R. MacLellan, H.B. Mak, J. Maneira, A.B. McDonald,
B.A. Moffat,A.J. Noble, C.V. Ouellet, B.C. Robertson, P. Skensved, M. Thomas, Y.Takeuchi
Queen’s University
D.L. WarkRutherford Laboratory and University of Sussex
R.L. HelmerTRIUMF
A.E. Anthony, J.C. Hall, M. Huang, J.R. Klein, S. SeibertUniversity of Texas at Austin
T.V. Bullard, G.A. Cox, P.J. Doe, C.A. Duba, J.A. Formaggio, N. Gagnon, R. Hazama, M.A. Howe, S. McGee, K.K.S. Miknaitis, N.S. Oblath, J.L. Orrell,
K. Rielage, R.G.H. Robertson, M.W.E. Smith, L.C. Stonehill, B.L. Wall, J.F. Wilkerson
University of Washington
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The Sudbury Neutrino Observatory
2039m to surface
1000 tonnes of D2O
7000 tonnes of H2O
Norite rock
6800 ft level
INCO’s Creighton Mine
Sudbury, Ontario
12m diameter acrylic vessel
17m diameter PMT support structure with ~9500 PMTs
Urylon liner and radon seal
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Signals in SNO Charged Current
D+ep+p+e-
Electron energy closely corresponds to neutrino energy. Weak directional sensitivity.
CC=e
Neutral Current D+xp+n+x
Equally sensitive to all active neutrino flavors. Threshold 2.2MeV.
NC=e +
Elastic Scattering e-+xe-+x
Good directional sensitivity. Enhanced e sensitivity.
ES=e + 0.154
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Where is the physics? Solar Neutrinos:
Measure mixing parameters. Measure CC/NC ratio
Measures 12.
Search for direct signatures of neutrino oscillation.
Day – Night Asymmetry Spectral Distortions.
Rare solar neutrino searches. Solar Antineutrinos Neutrinos from the hep reaction.
Other Physics: Atmospheric Neutrinos Proton Decay Neutron – Antineutron
Oscillations. Supernovae.
Taken from hep-ph/0406328
Note the linear scale.
10-4
6x10-5
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The Phases of SNO. Phase 1: Pure D2O.
Nov 1999 – May 2001 : 306.4 days. Neutrons Capture on D
Need spectral information to separate CC and NC.
Phase 2: D2O+NaCl Jul 2001-Sep 2003 : ~ 391 days. Neutrons Capture on 35Cl
Statistically separate neutrons and electrons via event isotropy.
Phase 3: 3He Counters (NCD) 2004-Dec 2006 Neutrons capture on 3He
Event by event separation of neutrons and electrons.
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Why add salt? Increase in Capture
Cross Section. Increase in visible
Cerenkov energy. Increased Neutron
Statistics. Detection efficiency:
14.4% → 39.9% Multiple g-rays in the
final state. Can statistically
separate neutron events from electrons using event isotropy.
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Event Isotropy. Decompose the
hit pattern into spherical harmonics.
Choose the combination that best separates CC and NC. 14=1+44
Uncertainty on 14 mean 0.87%
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Backgrounds Radioactive Backgrounds
U Chain – 214Bi Th Chain – 208Tl Sodium Activation – 24Na
Neutrons. Cherenkov Tail.
(,n) reactions on carbon. External Neutrons.
Cosmogenic Neutrons from atmospheric neutrinos.
Instrumental Backgrounds
New Calibration: controlled Radon spike.
Now include external neutrons as a free parameter in the fit.
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Signal Extraction – Phase 1 Maximum Likelihood
fit to PDFs. Variables:
Teff
(R/RAV)3
cos()
Background PDFs fixed.
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New PDFsES NCCC
E/MeV
(r/600cm)3
cos()
14
The Changes for the salt phase require new PDFs Now have 4 variables
with the addition of 14.
CC/ES PDFs unchanged.
New NC PDF Update to signal
extraction 14 depends upon
energy 2D PDFs.
Addition of external neutrons to the fit.
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Salt Results – 254 livedays. Results from July01-Oct02. Spectrum for CC and ES
unconstrained. Blind Analysis. Fit for external neutrons.
Kinetic Energy
Radius Direction Isotropy
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Flux Measurements.Salty D2O Pure D2O
)sys()stat(21.2Φ 10.010.0-
+0.310.26-ES
+=
)sys()stat(76.1Φ 09.009.0-
+0.060.05-CC
+=
)sys()stat(39.2Φ 12.012.0-
+0.240.23-ES
+=
)sys()stat(09.5Φ 46.043.0-
+0.440.43-NC
+=
Unit x106 cm-2s-1
)sys()stat(59.1Φ 06.008.0-
+0.080.07-CC
+=
)sys()stat(21.5Φ 38.038.0-
+0.270.27-NC
+=
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Upcoming Salt Results. Use the full salt data set.
~391 days. ~176 days during the day. ~214 days during the night.
Same energy threshold as the first salt paper (T=5.5MeV).
Also include Day – Night Results. Full Spectral Analysis.
Long paper in preparation.
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Other Physics TopicsSNO can search from more than solar neutrinos……
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Invisible Nucleon Decay Limits. For invisible nucleon decay in 16O
Can search for excitation s.
Comparing the pure D2O and salt phases
inv>1.9x1029 years for neutron modes. inv>2.1x1029 years for proton modes.
PRL 92, 102004, 2004
Vanishing Neutron6.18MeV 44%BR 7.03MeV 2%BR
Vanishing Proton6.32MeV 41%BR7.00MeV 4%BR
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Anti Neutrino Search. Look for
e+D → e++n+n
Q=4.03MeV Double and triple coincidence
search. nn coincidence threshold at
4.03MeV Direct Detection. Low Reactor background at SNO. Pure D2O Results.
e < 3.4x104cm-2s-1 (90%CL) hep-ex/0407029 Not competitive with KamLand
e < 3.7x102cm-2s-1 (90%CL)
SNO Limits.
SK Limits.
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Phase 3: The NCD phase. Use 3He proportional
counters. Uniquely identify neutron
events. 3He+n→p+T
Measure Charge vs Time in the proportional counters.
40 Strings on 1 m grid. Total Active length 398m.
Expect capture efficiency:
~25% on 3He ~20% on D
Aim to measure CC/NC to ~7%
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Signals in the NCDs. Digitize the charge vs
time signal from the NCDs. Neutron events have
two particles. Radioactive
backgrounds have one. Neutron Free Window
in charge vs rise time. Benchtest Data. 4He Strings provide
control sample.
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New Analysis Challenges NCD Data
Calibration. Instrumental
Backgrounds. Separation of neutron
signal from alpha background.
Understanding end effects.
Z position from reflection.
System deadtime. External neutrons.
PMT Data Light occultation from
NCDs. U/Th in/on the NCDs. Understanding/checking
previous analysis inputs Reconstruction Energy Isotropy Event Selection Cuts
Signal Extraction. Loss of spherical symmetry. Constraints on neutrons
from NCDs.
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From Salt to NCDs. NCD Configuration Optimization: End of Salt Phase: End of Salt Removal: End of Second Pure D2O Phase: First NCD deployed: Last String Deployed: Removal of Deployment
Hardware: Commissioning of Manipulator: End of Commissioning Phase:
Sep-Dec 2002
28 Aug 2003
3 Oct 2003
27 Oct 2003
3 Dec 2003
12 Feb 2004
23 Apr 2004
Jun 2004
Oct 2004
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The Second Pure D2O Phase. The second pure D2O
phase was used to verify the return to baseline. Optical Response. Energy Scale.
Cleaning of the water. Mn Organics
Neutron Response.
Extensive period of calibration.
Start of Salt Removal
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NCD Deployment
12 m
7 m
GlobalViewCamera
NCD
Deck Clean Room
HauldownSystem
Boathook
CableAttachmentRing
Shuttle Float
PulleyFloat
GVC Controls
D2O Level
BoathookHandle
HauldownCrank
AnchorAttachmentSite
3He Counters Radio Purity <10ppt U/Th.
500X Cleaner than best previous detectors.
Development and construction 1991-2004.
Anchors deployed during AV construction.
To Deploy NCDs. Attach counter to hauldown
mechanism. Use ROV to bring counter in the
D2O. Laser weld additional counters to
string above the neck. Leak test and test with Neutron
Source. Attach to anchor point. Secure Cable Repeat.
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NCD Deployment
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NCD Commissioning. Learn about the new
detector. Calibration Instrumental Backgrounds. Interaction of NCD and PMT
systems. Learn how to run the
detector. Are the NCDs running OK?
What to look for. Updates to monitoring tools.
Automation of procedures NCD electronics calibration. Data Processing. Data Flow.
Aim to finish commissioning in the autumn.
A Neutron Event
A “Fork” Event
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Conclusions SNO Results:
Solve the solar neutrino problem and demonstrate neutrino flavour change.
Restrict the measured values of the solar mixing parameters.
Future results can help further restrain the mixing parameters, particularly 12.
The NCD array is deployed in the detector. Commissioning of the full system now
underway.
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The Solar Neutrino Problem
Neutrino Flavor Change?
Something else?
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Measuring Cherenkov Tails :
A Radon Spike Calibration.
+ Monte Carlo for Th and Na
Compare with pure D2O measurement.