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Ultra-slow and ultra-weak discrete solitons in optical lattice via induced transparency

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Abstract

An optical atomic discrete system through optical induction is proposed. A theoretical scheme to produce optical discrete solitons in the system is presented with the use of the effects of enhanced self-phase modulation and cross-phase modulation through the giant kerr effect in the electromagnetically induced transparency. The power density and the photon flux can be tuned to a very low level by the coupling field and the soliton can propagate with very slow group velocity.

© 2010 Optical Society of America

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