Quantum time ordering and degeneracy. II: Coherent population transfer between degenerate states
Abstract
We find conditions required to achieve complete population transfer, via coherent population trapping, from an initial state to a designated final state at a designated time in a degenerate n-state atom, where transitions are caused by an external interaction. In systems with degenerate states there is no time ordering. Analytic expressions have been found for transition probabilities in a degenerate n-state atom interacting with a strong external field that gives a common time dependence to all of the transition matrix elements. Except for solving a simple nth order equation to determine eigenvalues of dressed states, the method is entirely analytic. These expressions may be used to control electron populations in degenerate n-state atoms. Examples are given for n=2 and n=3.
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