Asymmetry for tensor t2j and vector t1i polarizations with taking into account the deuteron wave function in coordinate space

Abstract

The analytic forms of deuteron wave function in coordinate space were applied for theoretical calculations of full set asymmetries of tensor t2j and vector t1i polarizations. Nucleon-nucleon realistic phenomenological potentials of Nijmegen group (Nijm1, Nijm2, Nijm93, Reid93) and Argonne group (Argonne v18) as well as other widely used and popular potentials (OBEPC, MT, Paris) are used for numerical calculations. The angular asymmetry is calculated in the range of momentums 0-7 fm - 1. The values of the asymmetry tij, by polarization type and with each other, are analysed. This is the angular-momentum dependence of values vector t1i (p,θe ) and tensor t2i (p,θe ) polarizations in 3D format at momentums 0-7 fm-1 and scattering angles 1-180 degrees were calculated and compared for Reid93 potential. The perspectives of further application of the obtained results for calculating the values of the cross-sections, asymmetries and other characteristics of processes with the participation of a deuteron are discussed.