The large-g observability of the low-lying energies in the strongly singular potentials V(x)=x2+g2/x6 after their PT-symmetric regularization

Abstract

The elementary quadratic plus inverse sextic interaction containing a strongly singular repulsive core in the origin is made regular by a complex shift of coordinate x = s- i. The shift >0 is fixed while the value of s is kept real and potentially observable, s ∈ (-∞,∞). The low-lying energies of bound states are found in closed form for the large couplings g. Within the asymptotically vanishing O(g-1/4) error bars these energies are real so that the time-evolution of the system may be expected unitary in an ad hoc physical Hilbert space.