Forbidden "ortho"--"para" electric dipole transitions in H2+ ion
Abstract
We present the first systematic calculation of the electric dipole forbidden transitions in the homonuclear molecular ion H2+. We get that the transition rate from the ground "ortho" (v\!=\!0,N\!=\!1,J\!=\!1/2) state to the ground "para" (v\!=\!0,N\!=\!0,J\!=\!1/2) state is 4.9\!×\!10-14 s-1 that corresponds to the lifetime of 6.4\!×\!105 yr. The Einstein coefficient Ann' for the (v\!=\!1,N\!=\!1,J\!=\!1/2)\!\!(v\!=\!0,N\!=\!0,J\!=\!1/2) transition is equal to 0.12\!×\!10-9 s-1, which is of "comparable" order with the values for quadrupole transitions in H2+. It gives hope that the "ortho"--"para" transitions in H2+ can be induced by the laser spectroscopy.
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