Motion of half-spin particles in the axially symmetric field of naked singularities of static q-metric

Abstract

Quantum-mechanical motion of a half-spin particle was examined in the axially symmetric field of static naked singularities formed by mass distribution with quadrupole moment (q-metric). The analysis was performed by means of the method of effective potentials of the Dirac equation generalized for the case when radial and angular variables are not separated. As -1<q<qlim, |qlim|<<1 the naked singularities do not except the existence of stationary bound states of Dirac particles for a prolate mass distribution in the q-metric along the axial axis. For the oblate mass distribution, the naked singularities of the q-metric are separated from the Dirac particle by infinitely large repulsive barriers with the subsequent potential well deepening while moving along the angle from the equator (or from θ=θmin, θ=π-θmin) towards poles. The exception are the poles and, as 0<q<q*, some points θi for the states of the particle with j>=3/2.