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Article overview
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Hydrogen atom and one-electron molecular systems in a strong magnetic field: are all of them alike? | A. V. Turbiner
; A. B. Kaidalov
; J. C. Lopez Vieyra
; | Date: |
2 Jun 2005 | Subject: | Atomic Physics | physics.atom-ph | Abstract: | Easy physics-inspired approximations of the total and binding energies for the ${
m H}$ atom and for the molecular ions $${
m H}_2^{(+)} ({
m ppe}), {
m H}_3^{(2+)} ({
m pppe}), ({
m HeH})^{++} (al {
m p e}), {
m He}_2^{(3+)} (al al {
m e})$$ as well as quadrupole moment for the ${
m H}$ atom and the equilibrium distances of the molecular ions in strong magnetic fields $> 10^{9}$ G are proposed. The idea of approximation is based on the assumption that the dynamics of the one-electron Coulomb system in a strong magnetic field is governed by the ratio of transverse to longitudinal sizes of the electronic cloud. | Source: | arXiv, physics/0506019 | Services: | Forum | Review | PDF | Favorites |
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