As a continuation of our previous work [Phys. Rev. A 68, 012504 (2003)] an accurate study of the lowest $1{\sigma }_g$ and the low-lying excited $1{\sigma }_u$, $2{\sigma }_g$, $1{\pi }_{u,g}$, $1{\delta }_{g,u}$ electronic states of the molecular ion $\mathrm{H}_2{}^{+}$ is made. Since the parallel configuration where the molecular axis coincides with the magnetic field direction is optimal, this is the only configuration which is considered. The variational method is applied and the same trial function is used for different magnetic fields. The magnetic field ranges from ${10}^9$ to $4.414\times {10}^{13}\mathrm{G}$, where nonrelativistic considerations are justified. Particular attention is paid to the $1{\sigma }_u$ state which was studied for an arbitrary inclination. For this state a one-parameter vector potential is used which is then variationally optimized.

• Received 29 October 2003

DOI:https://doi.org/10.1103/PhysRevA.69.053413