Structure of the 3He in Backward Elastic p 3He-Scattering

Abstract

Backward elastic p 3He-scattering at incident proton kinetic energies Tp>1 GeV is investigated in the framework of the np-pair transfer mechanism and triangular diagram of one-pion exchange with a subprocess pd 3Heπ0 using a realistic three-body wave function of the 3He nucleus. It is found that the np-pair transfer mechanism dominates owing to a rich high momentum component of the 3He wave function. We show that the experimental cross section of this process is defined mainly by the values of the Faddeev component of the 3He wave function, φ 23( q23, p1), at high relative momenta q23> 0.6 GeV/c of the NN-pair in the 1S0-state and at low spectator momenta p1≤ 0.1 GeV/c. The spin-spin correlation parameter is calculated in the framework of the dominating mechanism for the case of polarized target and beam. Rescatterings in the initial and final states are taken into account. Comparison with the pd dp process is performed.

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