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NEUTRINO PHYSICS
1. Historical milestones2. Neutrinos at accelerators3. Solar and atmospheric neutrinos4. Neutrino oscillations5. Neutrino astronomy5. Future aims
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When it all started…Problem of energy conservation in decays (also spin-statistics)
W. Pauli 1930, postulates a new invisible particle
E. Fermi 1933, the neutrino
m() < 100 keV
Reines and Cowan 1956, experimental proof
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The second neutrinoNew missing energy problems in and decays, seen in cosmic rays
First neutrino beam built at the Brookhaven acceleratorLederman, Schwartz and Steinberger, 1964
29 interactions showing a muon, none with an electron with , e with e
two different conserved leptonic numbers
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The third neutrinoMark 1 detector at SPEAR, 1975 ~ 20 « anomalous events »
e+ + e- e + + X
Beginning of the 3rd family e+ + e- + + -
Three conserved lepton numbers e + + e
+ +
Direct proof: a few events obtained in the Donut exp,
Beam-dump at Fermilab 2000 , Ds +
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Three and only three neutrinos
LEP = Z factory
Z decays democratically to all pairs of constituants (m<45 GeV)
11 constituants: 2.7 GeV width
New flavor adds 167 MeV to the width
First LEP result (1989)
N() = 3.00 ± 0.01
Three families of constituants
« Who ordered the other two? »
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Table of elementary constituants
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Neutrino sources
Neutrino grand spectrum
300 / cm3
65 billions / cm2 / s
1058 in 10 s
10-12
10-8
10-4
100
104
108
1012
1016
1020
1024
Flu
x (c
m-2
s-1M
eV-1
)
10-6 10-3 1 103 106 109 1012 1015 1018
eV meV eV keV MeV GeV TeV PeV EeV
Neutrino energy (eV)
Cosmological neutrinos
Solar neutrinos
Supernova neutrinos
geoneutrinos
Nuclear reactors
Atmospheric neutrinos
AGN neutrinos
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Accelerator neutrino beams
• Neutrino program exists at Cern since ~1965
- Wide band beam: maximum intensity (99% ,1% e)
With a magnetic horn possibility to choose beams of or anti-
- Narrow band beam: Magnetically selected and K; only 1% of the flux but energy information
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Neutrino energy spectrum (450 GeV protons)
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Neutrino interactions• Weak interactions only
+ N + hadrons
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Neutrino cross-section
= 0,7 10-38 * E (GeV) cm2
Solar : only 1/1 billion interacts in crossing the earthBut earth becomes opaque above 1015 eV
Neutrino physics: need of huge fluxes and gigantic detectors
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Interactions on electrons
But experimentally difficult(+e)/(+N) ~ me/mN ~ 1/2000Only 1 electron emitted in the beam direction
• Purely leptonic process, simple in principle
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Evolution of neutrino detectors
Compromise between resolution measurement and statistics
Pioneer detectors: bubble chambers
They studied interactions in a non-biased way (<1985)
GGM, BEBC
Precise info but slow technique, limited statistics
Calorimeter type
CDHS, Charm, HPW, CCFR
High statistics, limited resolution
More modern versions
NOMAD, Icarus
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A textbook picture
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Gargamelle
Discovery of neutral currents
(1973)
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The CDHS experiment (1977-1983)
1250 tons of magnetised iron sandwiched with planes of scintillators and wire chambers
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« Typical event »
Good detection of muons
Sign and energy are measured
p/p = 15%
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Deep inelastic scatteringNeutrinoscopy of the nucleons
Q2 = 4 E E’ sin2(/2)
x = Q2/2M
Where = Eh – M
x and Q2 are measured event by event
y = /E
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Internal structure of the nucleons
• Parton distribution functions: One can extract u(x), d(x), s(x), c(x)
• 3 valence quarks + sea of quarks, pairs of quark-antiquark
• Gluons do not participate. They are extracted by missing momentum
• Confined at small x, they carry ~ 50% of the total momentum
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One, two, three and four muons
Opposite sign dimuons
Allow the study of D meson production
Gives the c quark distribution functions inside the nucleon
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Neutrinos and the Standard Model
• First measurement of Weinberg angle
• R = NC/CC
= 1/2 - sin2W +…
GGM at SPS 1978
9 candidates for e scattering with 0.5 back, out of 64000 CC
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The NOMAD experiment (1993-2000)
« Electronic bubble chamber »
Only 2-ton target, but very fine grain calorimeter
106 events obtained
Search for (together with Chorus)
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Partial summaryThere exist 3 and only 3 « active » neutrinos, with their antineutrinos
+ N l- + hadrons
anti- + N l+ + hadrons
They only feel weak interactions:
couplings to W± (CC) and Z0 (NC)
In the MSM, SU(2)xU(1)
leptons appear as left-handed doublets + right-handed singlets
( l- , )L ( l- )R
No right-handed (or left-handed anti-) are massless