Symmetry Tests in Nuclear Beta Decay

23 November 2011

journal article
Published by Annual Reviews in Annual Review of Nuclear and Particle Science

Vol. 61 (1) , 23-46
https://doi.org/10.1146/annurev-nucl-102010-130410

Abstract

Precision measurements in nuclear β decay provide sensitive means to test the structure of the standard electroweak model; they also allow the determination of fundamental properties in processes that involve the lightest quarks. The primary aim of such tests is to find deviations from the Standard Model predictions that may indicate new physics. We review here the status of precision measurements in nuclear β decay, including selected experiments in neutron decay, and discuss recent results and developments. Among these developments are the consideration of nuclear mirror transitions as a new window in which to test the unitarity condition of the Cabibbo-Kobayashi-Maskawa quark-mixing matrix, measurements of angular correlation observables to search for exotic couplings, and tests of discrete symmetries.

Keywords

This publication has 111 references indexed in Scilit:

$ft$ value of the $0^{+} \to 0^{+}$ $β^{+}$ decay of ${}^{32}{Ar}$ : A measurement of isospin symmetry breaking in a superallowed decay
Physical Review C, 2008
Asymmetry of recoil protons in neutron β decay
Physical Review C, 2008
Supersymmetric contributions to weak decay correlation coefficients
Physical Review D, 2007
Positron-Neutrino Correlation in the $0^{+} \to 0^{+}$ Decay of $^{32} Ar$
Physical Review Letters, 1999
Time-reversal violation in β decay in the standard model
Physical Review D, 1997
Improved limits on scalar weak couplings
Physical Review Letters, 1993
Status of the standard vector—axial-vector model for nuclear beta decay
Physical Review C, 1984
Test of Time-Reversal Symmetry in the $β$ Decay of ${}^{19}{Ne}$
Physical Review Letters, 1984
Experimental Study of Weak Magnetism and Second-Class Interaction Effects in the $β$ Decay of Polarized ${}^{19}{Ne}$
Physical Review Letters, 1975
Recoil effects in allowed beta decay: The elementary particle approach
Reviews of Modern Physics, 1974