Angular Distribution of γ-rays from Neutron-Induced Compound States of 140La

Abstract

Angular distribution of individual γ-rays, emitted from a neutron-induced compound nuclear state via radiative capture reaction of 139La(n,γ) has been studied as a function of incident neutron energy in the epithermal region by using germanium detectors. An asymmetry ALH was defined as (N L-N H)/(N L+N H), where N L and N H are integrals of low and high energy region of a neutron resonance respectively, and we found that ALH has the angular dependence of (Aθγ+B), where θγ is emitted angle of γ-rays, with A= -0.38810.0236 and B=-0.07470.0105 in 0.74 eV p-wave resonance. This angular distribution was analyzed within the framework of interference between s- and p-wave amplitudes in the entrance channel to the compound nuclear state, and it is interpreted as the value of the partial p-wave neutron width corresponding to the total angular momentum of the incident neutron combined with the weak matrix element, in the context of the mechanism of enhanced parity-violating effects. Additionally we used the result to quantify the possible enhancement of the breaking of the time-reversal invariance in the vicinity of the p-wave resonance.