Semiclassical distorted wave model analysis of the complete set of spin transfer coefficients for multistep direct (p, nx) at 350 MeV

The semiclassical distorted wave (SCDW) model of multistep direct processes is extended to calculate the double differential inclusive cross section (DDX) and the complete set of spin transfer coefficients (D_ij) at energies of 350-400 MeV, taking account of one- and two-step processes. The DDX for (p, p′x) on ⁴⁰Ca at 392 MeV is calculated and compared with experimental data. The calculated D_ij and the DDXs for (p, nx) on ¹²C and ⁴⁰Ca at 346 MeV for the emission angle of 22° are compared with the measured ones. Features of the calculated D_ij, the contribution of two-step processes in particular, are discussed in terms of the comparison with those of the DDX. The calculated DDX and D_ij are analyzed in terms of the choice of the bare N N force on which the effective interaction is based, the difference in the methods of the calculation of G matrices, and the in-medium modification of effective interactions.