Download - Neutrino Oscillations - Harvard University
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Gary Feldman Neutrino Oscillations
Neutrino Oscillations
1. Introduction
2. Status and Prospects
A. Solar Neutrinos
B. Atmospheric Neutrinos
C. LSND Experiment
D. High-Mass Neutrinos
3. Conclusions
Plenary talk given at
DPF’99
UCLA, January 9, 1999
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Gary Feldman Neutrino Oscillations
Introduction
Leptons and quarks are closely related (GIM, 1970).
Either neutrino masses are zero (due to some symmetry) orthey will have different weak and mass eigenstates, asquarks do. The evidence is now extremely strong for thelatter.
Neutrinos differ from charged leptons and quarks in twoways:
• They have tiny masses (experimental).• They can have Majorana mass terms (theoretical).
The conventional wisdom is that these are related (e.g. thesee-saw mechanism). Thus the study of neutrinooscillations may give us a window on the physics of veryhigh energies.
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Gary Feldman Neutrino Oscillations
Oscillations
In analogy to the the quarks, we can express therelationship between the weak eigenstates ( νe, νµ, ντ) and
the mass eigenstates ( ν1, ν2 , ν3) as
νe
νµντ
=
Ue1 Ue2 Ue3Uµ1 Uµ2 Uµ3
Uτ1 Uτ2 Uτ3
ν1
ν2
ν3
.
Then the probability of oscillation is
P(να → νβ ) = δαβ − 4 UαiUβiUαj* Uβj
* sin2 1.27∆mij2 L
E
j=i+1
3∑
i=1
3∑ ,
where E is in GeV, L is in km, and ∆mij
2 = mi2 − mj
2 is in
eV / c2( )2.
Note that there are 3 ∆mij2 , but only 2 are independent.
Thus, if there are 3 experimental mass scales, for which wenow have some evidence, there must be either
• a sterile neutrino, or• at least one mass scale has not been correctly
determined.
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Gary Feldman Neutrino Oscillations
Solar Neutrinos
The sun produces electron neutrinos with energies up to 18MeV, and they can oscillate over a path of 150,000,000 km,and be detected by either radiochemical techniques or byneutrino-electron scattering in water.
The major mechanism for producing neutrinos in the sun isthe p-p cycle. (See figures).
The measured rates are inconsistent with any solar model.(See figure).
The rates suggest neutrino oscillations either due to vacuumoscillations (“just-so”) at around ∆m2 ≈10−10 (eV / c2 )2,(see figure), or matter oscillations (Mikheyev-Smirnov-Wolfenstein) around ∆m2 ≈10−5 (eV / c2 )2 (see figure).
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Gary Feldman Neutrino Oscillations
Solar p-p Cycle
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Gary Feldman Neutrino Oscillations
Solar Energy Spectrum
From http://www.sns.ias.edu/~jnb/
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Gary Feldman Neutrino Oscillations
Solar Rate Results
From http://www.sns.ias.edu/~jnb/
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Gary Feldman Neutrino Oscillations
SuperK Fits to Ga+Cl+SK Rates
99% Confidence Level
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Gary Feldman Neutrino Oscillations
SuperK Fits to Ga+Cl+SK Rates
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Gary Feldman Neutrino Oscillations
SuperKamiokande
50,000 T water Cerenkov detector with 13,000 20-inchphotomultipliers.
New solar data at this conference:• Data extended from 504 days to 708 days• Energy spectrum extended from 6.5 MeV to 5.5 MeV
SuperKamiokande
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Gary Feldman Neutrino Oscillations
“Super Low Energy” Analysis (419 days)
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Gary Feldman Neutrino Oscillations
Solar Spectrum
A deviation from flat would be a smoking gun foroscillations.
We see a deviation at the high E end, but this is nottheoretically reliable, because the hep contribution in thisregion could be off by more than an order of magnitude.(Bahcall and Krastev, PL B436,243). Leaving the hepcontribution open is equivalent to ignoring the last fourpoints (Smy).
(Red line is my hand-drawn fit.)
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Gary Feldman Neutrino Oscillations
Solar Spectrum Fits
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Gary Feldman Neutrino Oscillations
Day-Night Effect
A day-night difference would be a smoking gun for a large-angle MSW effect.
Day-night asymmetry = -0.026 ± 0.016 ± 0.013
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Gary Feldman Neutrino Oscillations
Seasonal Variation
A seasonal variation beyond 1/ r2 would be a smoking gunfor vacuum oscillations.
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Gary Feldman Neutrino Oscillations
Solar Region Prospects
• In spite of increased statistics and lower energy data fromSuperK, our qualitative understanding of the solar neutrinoregion has not changed at this conference.
• More data from SuperK and an extension of the analysisto 5 MeV should provide additional discrimination amongoscillation regions, clairify the hep cross section, andpossibly provide a smoking gun.
• SNO is a 1 kT D2O detector with 10,000 8-inchphotomultipliers, giving 30% photocathode coverage.
The deuterium target opens up two important newchannels:
Charged current: νe + d → p + p + e−, 12.7 events/day
The electron carries most of the neutrino energygiving good energy resolution (see figure).
Neutral current: νx + d → p + n + νx , 5.5 events/day
A test of νe → νµ,τ vs. νe → νs.
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Gary Feldman Neutrino Oscillations
SNO CC Electron Spectrum
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Gary Feldman Neutrino Oscillations
SNO Schedule
Feb 99 Finish fillingAug 99 Finish commisioning, start runs:
1 yr run without MgCl2
1 yr run with MgCl2
1 yr run with 3He neutron detectors
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Gary Feldman Neutrino Oscillations
Atmospheric Neutrinos
Cosmic rays hit the atmosphere, creating pions:
Absolute flux is uncertain to 20%, so most measurementsuse ratios, which are better determined.
p + N → X + π±
→ µ + νµ
→ e + νe + νµ
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Gary Feldman Neutrino Oscillations
Up/Down Asymmetry
New SuperKamiokande data (736 days FC / 685 days PC)
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Gary Feldman Neutrino Oscillations
Angular Distributions
For νµ → ντ oscillations.
Fit probability 58%.
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Gary Feldman Neutrino Oscillations
10-Bin Angular Distributions
For νµ → ντ oscillations.
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Gary Feldman Neutrino Oscillations
Angular Distributions
For νµ → νs oscillations
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Gary Feldman Neutrino Oscillations
Angular Distributions
For νµ → νe oscillations.
Fit probability < 0.1%.
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Gary Feldman Neutrino Oscillations
SuperK Atmospheric Allowed Region
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Gary Feldman Neutrino Oscillations
Allowed Regions
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Gary Feldman Neutrino Oscillations
Allowed Region
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Gary Feldman Neutrino Oscillations
Upward Through and Stopping Muons
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Gary Feldman Neutrino Oscillations
Stopping Muon Angular Distribution
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Gary Feldman Neutrino Oscillations
Stopping/Through Ratio
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Gary Feldman Neutrino Oscillations
Upward Muons Allowed Regions
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Gary Feldman Neutrino Oscillations
SuperKamiokande Best Fit to All Data
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Gary Feldman Neutrino Oscillations
Soudan 2 Atmospheric L/E
Soudan 2 is a 1 kT, fine-grained, gas-iron detector. It usesits ability to see proton recoils to define a high angular-resolution sample. Based on 4.2 kT-yr,
∆m2 = 1×10−3
∆m2 = 5 ×10−3
∆m2 = 1.1×10−2
∆m2 = 1×10−2
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Gary Feldman Neutrino Oscillations
Soudan 2 Atmospheric Allowed Regions
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Gary Feldman Neutrino Oscillations
MACRO Through Muon Flux
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Gary Feldman Neutrino Oscillations
MACRO Atmospheric Allowed Region
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Gary Feldman Neutrino Oscillations
Atmospheric Region Prospects
K2K is an experiment sending a neutrino beam from KEKto SuperKamiokande over a 250 km baseline. It will startthis year.
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Gary Feldman Neutrino Oscillations
MINOS
MINOS is an experiment sending a neutrino beam fromFermilab’s Main Injector to the Soudan mine over a 730km baseline. It is scheduled to start in 2002.
The far detector is 468 plane, 5.4 kT magnetized iron-scintillator sandwich.
The MINOS beams:
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Gary Feldman Neutrino Oscillations
MINOS Charged Current Spectra
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Gary Feldman Neutrino Oscillations
MINOS Sensitivity
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Gary Feldman Neutrino Oscillations
LSND Experiment
The LSND experiment at Los Alamos detects neutrinosfrom a stopped pion beam:
π+ → µ+νµ|→ e+νeν µ
The experiment then looks for ν µ → ν e oscillations, where
the ν e is detected by observing ν e p → e+n , followed by a γfromnp → dγ .
Current status:Mode Total Backgrnd ExcessDAR 70 30.5 ± 2.0 39.5 ± 8.8DIF 40 20.1 ± 2.1 18.1 ± 6.6
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Gary Feldman Neutrino Oscillations
LSND DAR Spectrum
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Gary Feldman Neutrino Oscillations
LSND Allowed Regions
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Gary Feldman Neutrino Oscillations
LSND Region Prospects
The Karmen experiment is similar to LSND, but it does notappear it will have enough sensitivity to make a definitivestatement.
The MiniBooNE experiment at the 8 GeV FermilabBooster using a tank of pure mineral oil as a detector. Itplans to cover the whole LSND region:
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Gary Feldman Neutrino Oscillations
High-Mass Region
The motivation for searching for neutrino oscillations in therange ∆m2 > few (eV /c2 )2 was that such neutrinos wouldform the hot dark matter that fits to galactic structure andcosmic background anisotropy seem to require.
The major experiments are CHORUS and NOMAD atCERN, both of which have now completed data taking.
CHORUS searches for τ’s that leave a kinked track in aphotographic emulsion. NOMAD searches for kinematic τsignatures due to missing transverse momentum carried offby neutrinos in the τ decay.
NOMAD has analyzed most of its data and has 21candidates for 24 expected background. CHORUS hasonly analyzed 15% of its low-background data (muonicmode) and has observed no candidates.
Both experiments report high-∆m2 upper limits at 90%C.L. of sin2(2θ) < 1.2×10−3 (see figure).
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Gary Feldman Neutrino Oscillations
High-Mass Excluded Regions
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Gary Feldman Neutrino Oscillations
High-Mass Region Prospects
The U.S. next generation experiment, COSMOS, hasfolded, and the future of the European next generationexperiment, TOSCA, is not clear.
I do not think that there will be a next generation high-massexperiment in the near future, unless CHORUS finds somehints in the remainder of its data.
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Gary Feldman Neutrino Oscillations
Conclusions
Atmospheric ★★★Consistent picture seen in several ways by severalexperiments. Detailed fit to the angular distribution is asmoking gun. Parameters are beginning to be pinneddown.
Solar ★★Large effect seen by all experiments. Mass-angle regionnot pinned down. Still questions about the solar model.No smoking guns.
LSND ★Persistent for 5 years. Single experiment. Needsconfirmation.
High-MassNo signal ⇒ no star.