Title: Fundamental Couplings
1Fundamental Couplings
2Feynman Diagrams
G1.116 x 10-5 GeV-2 MW80.4 GeV MZ91.2 GeV
W
Z
3Simplest Case nm e-?m- ne
4Grunge
5Finally the cross section
Flux factor
e- spin average
Isotropic
Total s
6Experimental Apparatus
7CHARM II at CERN
8Experimental Data
Lab Frame
9Neutral current nme? nme
10Note the following
? no interference between 1-g5 and 1g5
11Tricks
p?k , same!
1-g5 ? 1g5 equivalent to n?n or k?k ?
(pk)(pk) or s2?u2
12Compute (1g5) for e-
13Neutral current result nme? nme
14New Variable y
In Lab Frame (pme)
energy transferred incident energy
15nme? nme
16nme? nme
n? n same as 1-g5 ? 1g5 or gAe ? - gAe
17CHARM Experimental Data
18e
ne
gve? 1 gve gAe? 1 gAe
e
ne
(note Glashow resonance)
19n(n)e- SUMMARY
20Quark Mixing Matrix
21Quark Mixing Matrix contd
(Wolfenstein)
cos(qC)
sin(qC)
22CC n quark
n
pq
k
k
n
pq xP
and also
23CC DIS scattering
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28Elastic CC n-N Scattering
e
n
k
p
W
p
k
ne
p
29Some details
30Cross section
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32Precise Measurements
Flux and Energy Spectrum g 1-2
33CC Neutrino-disintegration of the Deuteron
d 3S1, T0
nn, pp 1S0, T1
MGT ltd S (st) NNgt
34Elastic CC n N scattering
FiV from e- scattering. FA from n scattering.
35Quasielastic scattering
Doppler Shift
36QE cross section
n0
37Electron Scattering
38Incident neutrino energy??
Neglect nucleon binding energy (25 MeV)
(HW)
39CC QE data compilation