Michel parameters explained

The Michel parameters, usually denoted by

\rho,η,\xi

and

\delta

, are four parameters used in describing the phase space distribution of leptonic decays of charged leptons,
- →
l
i
-
l
j

\nui\bar{\nuj

}. They are named after the physicist Louis Michel. Sometimes instead of

\delta

, the product

\xi\delta

is quoted. Within the Standard Model of electroweak interactions, these parameters are expected to be

\rho={3\over4},η=0,\xi=1,\xi\delta={3\over4}.

Precise measurements of energy and angular distributions of the daughter leptons in decays of polarized muons and tau leptons are so far in good agreement with these predictions of the Standard Model.

Muon decay

Consider the decay of the positive muon:

\mu+\toe++\nue+\bar\nu\mu.

In the muon rest frame, energy and angular distributions of the positrons emitted in the decay of a polarised muon expressed in terms of Michel parameters are the following, neglecting electron and neutrino masses and the radiative corrections:
d2\Gamma
x2dxd\cos\theta

\sim(3-3x)+

2
3

\rho(4x-3)+P\mu\xi\cos\theta [(1-x)+

2
3

\delta(4x-3)],

where

P\mu

is muon polarisation,

x=Ee/E

max
e
, and

\theta

is the angle between muon spin direction and positron momentum direction.[1] For the decay of the negative muon, the sign of the term containing

\cos\theta

should be inverted.

For the decay of the positive muon, the expected decay distribution for the Standard Model values of Michel parameters is

d2\Gamma
dxd\cos\theta

\simx2[(3-2x)-P\mu\cos\theta(1-2x)].

Integration of this expression over electron energy gives the angular distribution of the daughter positrons:
d\Gamma
d\cos\theta

\sim1+

1
3

P\mu\cos\theta.

The positron energy distribution integrated over the polar angle is
d\Gamma
dx

\sim(3x2-2x3).

References

Notes and References

  1. R. Bayes et al. (TWIST collaboration) . 2011 . Experimental Constraints on Left-Right Symmetric Models from Muon Decay . . 106. 4. 041804 . 10.1103/PhysRevLett.106.041804. 2011PhRvL.106d1804B . 21405321 . free .