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Supersymmetry identifies molecular Stark states whose eigenproperties can be obtained analytically

Chemical Physics 2011-06-24 v1 Mathematical Physics math.MP Atomic Physics Quantum Physics

Abstract

We made use of supersymmetric (SUSY) quantum mechanics to find a condition under which the Stark effect problem for a polar and polarizable closed-shell diatomic molecule subject to collinear electrostatic and nonresonant radiative fields becomes exactly solvable. The condition, Δω=ω24(m+1)2\Delta \omega = \frac{\omega^2}{4 (m+1)^2}, connects values of the dimensionless parameters ω\omega and Δω\Delta \omega that characterize the strengths of the permanent and induced dipole interactions of the molecule with the respective fields. The exact solutions are obtained for the J~=m,m;ω,Δω>|\tilde{J}=m,m;\omega,\Delta \omega> family of "stretched" states. The field-free and strong-field limits of the combined-fields problem were found to exhibit supersymmetry and shape-invariance, which is indeed the reason why they are analytically solvable. By making use of the analytic form of the J~=m,m;ω,Δω>|\tilde{J}=m,m;\omega,\Delta \omega> wavefunctions, we obtained simple formulae for the expectation values of the space-fixed electric dipole moment, the alignment cosine, the angular momentum squared, and derived a "sum rule" which combines the above expectation values into a formula for the eigenenergy. The analytic expressions for the characteristics of the strongly oriented and aligned states provide a direct access to the values of the interaction parameters required for creating such states in the laboratory.

Keywords

Cite

@article{arxiv.1106.4402,
  title  = {Supersymmetry identifies molecular Stark states whose eigenproperties can be obtained analytically},
  author = {Mikhail Lemeshko and Mustafa Mustafa and Sabre Kais and Bretislav Friedrich},
  journal= {arXiv preprint arXiv:1106.4402},
  year   = {2011}
}

Comments

12 pages, 4 figures, 1 table

R2 v1 2026-06-21T18:25:54.159Z