Electromagnetically induced transparency : Optics in coherent media
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TLDR
In this paper, the authors consider the atomic dynamics and the optical response of the medium to a continuous-wave laser and show how coherently prepared media can be used to improve frequency conversion in nonlinear optical mixing experiments.Abstract:
Coherent preparation by laser light of quantum states of atoms and molecules can lead to quantum interference in the amplitudes of optical transitions. In this way the optical properties of a medium can be dramatically modified, leading to electromagnetically induced transparency and related effects, which have placed gas-phase systems at the center of recent advances in the development of media with radically new optical properties. This article reviews these advances and the new possibilities they offer for nonlinear optics and quantum information science. As a basis for the theory of electromagnetically induced transparency the authors consider the atomic dynamics and the optical response of the medium to a continuous-wave laser. They then discuss pulse propagation and the adiabatic evolution of field-coupled states and show how coherently prepared media can be used to improve frequency conversion in nonlinear optical mixing experiments. The extension of these concepts to very weak optical fields in the few-photon limit is then examined. The review concludes with a discussion of future prospects and potential new applications.read more
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References
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From lasers and masers to phaseonium and phasers
TL;DR: In this paper, a phase coherent atomic ensemble (phaseonium) is proposed for high precision magnetometry and particle acceleration, which is a new state of matter and exhibits many unusual features such as lasing without population inversion and quenching of the Schawlow-Townes quantum noise.
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Laser-induced continuum structure
TL;DR: In this paper, a dressing laser can embed a low-lying atomic state into a flat continuum to produce a tunable resonance of adjustable width, and the effects of laser phase fluctuations on the interference phenomena responsible for LICS are included in both semiclassical Wiener-Levy and fullyquantum mechanical theories of multiplicative stochastic processes.