Finite Hydrogenic molecular chain H3 and ion H2- exist in a strong magnetic field

Abstract

The existence and stability of the linear hydrogenic chain H3 and H2- in a strong magnetic field is established. Variational calculations for H3 and H2- are carried out in magnetic fields in the range 1011≤ B ≤ 1013\,G with 17-parametric (13-parametric for H2-), physically adequate trial function. Protons are assumed infinitely massive, fixed along the magnetic line. States with total spin projection Sz=-3/2 and magnetic quantum numbers M=-3,-4,-5 are studied. It is shown that for both H3 and H2- the lowest energy state corresponds to M=-3 in the whole range of magnetic fields studied. As for a magnetic field B 1011\,G both H3 and H2- exist as metastable states, becoming stable for B ≥ 1.9 × 1011\,G and for B ≥ 2.7 × 1011\,G, respectively. The excited states 4(-4)+, 4(-5)+ of H3 and H2- appear at magnetic fields B > 7 × 1011 and 1012\,G, respectively.