The 3He( n,p)3H parity-conserving asymmetry
Abstract
Recently, the n3He collaboration reported a measurement of the parity-violating (PV) proton directional asymmetry A PV = (1.55 0.97~ (st\ at) 0.24~ (sys))× 10-8 in the capture reaction of 3He( n, p)3H at meV incident neutron energies. The result increased the limited inventory of precisely measured and calculable PV observables in few-body systems required to further understand the structure of hadronic weak interaction. In this letter, we report the experimental and theoretical investigation of a parity conserving (PC) asymmetry A PC in the same reaction (the first ever measured PC observable at meV neutron energies). As a result of S- and P-wave mixing in the reaction, the A PC is inversely proportional to the neutron wavelength λ. The experimental value is (λ× A PC)β= (-1.97 0.28~(stat) 0.12~(sys)) × 10-6 Amstrongs. We present results for a theoretical analysis of this reaction by solving the four-body scattering problem within the hyperspherical harmonic method. We find that in the 3He( n, p)3H reaction, A PC depends critically on the energy and width of the close 0- resonant state of 4He, resulting in a large sensitivity to the spin-orbit components of the nucleon-nucleon force and even to the three-nucleon force. The analysis of the accurately measured A PC and A PV using the same few-body theoretical models gives essential information needed to interpret the PV asymmetry in the 3He( n, p)3H reaction.
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