Possible measurement of P-states probability in the 4He nucleus

Abstract

Using the experimental data on total S=1 transition cross-sections \, for 4He(γ,p)3H and 4He(γ,n)3He reactions as the base, the paper describes the possibility of measuring the probability of P-states in the 4He nucleus. The S=1 transitions may originate from 3P0 states of the nucleus, or be the result of the spin-flip of the final-state particle system from 1S0, or 5D0 states of the 4He nucleus, and also as a result of the secondary effects. The analysis of the experimental data has suggested the conclusion that within the statistical error the ratio of the S=1 transition cross-sections in the collinear geometry to reaction cross-sections at polar nucleon-exit angle θN=90 p and n in the photon energy range 22γ100 MeV is independent of the photon energy. This is in agreement with the assumption that the S=1 transitions can originate from 3P0 states of the 4He nucleus. Average values of magnitude p and n in the mentioned photon energy range are calculated p=0.010.002 and n=0.0150.003. The errors are statistical only.