Abstract
Electromagnetically induced transparency (EIT)[1] refers to a phenomenon, whereby the optically resonant transition is rendered nearly transparent by applying a strong coupling laser field The mechanism of EIT is usually explained in terms of quantum coherence or quantum interference This EIT has attracted increasing interest because absorption associated with nonlinear optical processes can be removed In the typical three-level λ-system, which includes the ground state and the metastable state, when the atomic population is prepared in the superposition of the states by the coupling fields, the optical response of the media to the probe field is significantly modified. Since this is a coherent control of an electric field by another fields via the atomic coherence, several schemes to control light coherently have been suggested [2] Here, we propose an optical coherent control scheme of the polarization of optical pulses using the EIT quantum coherence, and numerically study its applicability to fast optical switching.
© 2000 IEEE
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