The Exotic Molecular Ion H_4^{3+} in a Strong Magnetic Field

Using the variational method, a detailed study of the lowest m = 0,-1 electronic states of the exotic molecular ion H_4^{3+} in a strong magnetic field, in the linear symmetric configuration parallel to the direction of the magnetic field is carried out. A extended study of the 1\sigma_g ground stat...

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Bibliographic Details
Published in:arXiv.org 2006-04
Main Author: H Olivares Pilón
Format: Article
Language:English
Subjects:
Electron states
Magnetic fields
Molecular ions
Potential energy
Relativistic theory
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Summary:Using the variational method, a detailed study of the lowest m = 0,-1 electronic states of the exotic molecular ion H_4^{3+} in a strong magnetic field, in the linear symmetric configuration parallel to the direction of the magnetic field is carried out. A extended study of the 1\sigma_g ground state (J.C. López and A. Turbiner, Phys. Rev. A 62, 022510, 2000) was performed obtaining that the potential energy curve displays a sufficiently deep minimum for finite internuclear distances, indicating the possible existence of the molecular ion H_4^{3+}, for magnetic fields of strength B \gtrsim 3x10^{13}G. It is demonstrated that the excited state 1\pi_u can exist for a magnetic field B = 4.414 x 10^{13}G corresponding to the limit of applicability of the non-relativistic theory.
ISSN:2331-8422