The H3+ molecular ion in a magnetic field in linear parallel configuration

Abstract

A first detailed study of the ground state of the H3+ molecular ion in linear configuration, parallel to a magnetic field direction, and its low-lying ,, states is carried out for magnetic fields B=0-4.414 × 1013 G in the Born-Oppenheimer approximation. The variational method is employed with a single trial function which includes electronic correlation in the form ( r12), where is a variational parameter. It is shown that the quantum numbers of the state of the lowest total energy (ground state) depend on the magnetic field strength. The ground state evolves from the spin-singlet 1g state for weak magnetic fields B 5 × 108 G to a weakly-bound spin-triplet 3u state for intermediate fields and, eventually, to a spin-triplet 3u state for 5 × 1010 B 4.414 × 1013 G. Local stability of the linear parallel configuration with respect to possible small deviations is checked.

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