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Nonperturbative Coherent Population Trapping: An Analytic Model

Quantum Physics 2010-07-01 v1 Other Condensed Matter Chemical Physics

Abstract

Coherent population trapping is shown to occur in a driven symmetric double-well potential in the strong-field regime. The system parameters have been chosen to reproduce the 03+0^{-}\leftrightarrow 3^{+} transition of the inversion mode of the ammonia molecule. For a molecule initially prepared in its lower doublet we find that, under certain circumstances, the 3+3^{+} level remains unpopulated, and this occurs in spite of the fact that the laser field is resonant with the 03+0^{-}\leftrightarrow 3^{+} transition and intense enough so as to strongly mix the 0+0^{+} and 00^{-} ground states. This counterintuitive result constitutes a coherent population trapping phenomenon of nonperturbative origin which cannot be accounted for with the usual models. We propose an analytic nonperturbative model which accounts correctly for the observed phenomenon.

Keywords

Cite

@article{arxiv.quant-ph/0306164,
  title  = {Nonperturbative Coherent Population Trapping: An Analytic Model},
  author = {V. Delgado and J. M. Gomez Llorente},
  journal= {arXiv preprint arXiv:quant-ph/0306164},
  year   = {2010}
}

Comments

5 pages, 2 figures