@article{2007-choi-cho-phys-rev-a-v75-p013815,
	Abstract = {<p>
	Polarization rotation of weak probe light induced by circularly polarized strong coupling light in a &Lambda; configuration is studied. We use spin-polarized cold cesium atoms trapped in a magneto-optical trap to remove complications from Zeeman distribution, Doppler broadening, and collisional decoherence. By using a very low probe intensity and short illumination period we work in a strictly linear regime. The probe and the coupling fields are optically phase locked to eliminate phase fluctuation and consequent atomic decoherence. Using this idealized situation we clarify the roles of optically induced Faraday rotation, circular dichroism, and electromagnetically induced transparency (EIT) in determining the final state of the probe light. In particular, we identify an experimental situation where the roles of atomic coherence and EIT are important.</p>},
	Author = {Choi, J. AND Kim, J. M. AND Park, Q. AND Cho, D.},
	Journal = {Phys. Rev. A},
	Pages = {013815},
	Title = {{Optically induced Faraday effect in a lambda configuration of spin-polarized cold cesium atoms}},
	Volume = {75},
	Year = {2007}
}