Stable He- can exist in a strong magnetic field
Abstract
The existence of bound states of the system (,e,e,e) in a magnetic field B is studied using the variational method. It is shown that for B 0.13\, a.u. this system gets bound with total energy below the one of the (,e,e) system. It manifests the existence of the stable He- atomic ion. Its ground state is a spin-doublet 2(-1)+ at 0.74\, a.u. B 0.13\, a.u. and it becomes a spin-quartet 4(-3)+ for larger magnetic fields. For 0.8\, a.u. B 0.7\, a.u. the He- ion has two (stable) bound states 2(-1)+ and 4(-3)+.
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