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Tunable deep-ultraviolet source generated by scattering off adiabatically prepared Raman coherence in hydrogen gas

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Abstract

We demonstrate a tunable deep-ultraviolet coherent source generated by the beating of a tunable UV laser and strongly driven vibrational Raman coherence in hydrogen. The total energy conversion efficiency reaches a maximum of 50% at the phase side of the Raman coherence. The generated spectrum of Raman sidebands tunes with the input and extends from 435to146nm for an input at 282nm.

© 2005 Optical Society of America

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