Abstract

Quantum noise suppression in a Raman laser is investigated theoretically using a model system of homogeneously broadened three-state atoms, driven by an external pump field. Arbitrary pump, Raman, and cavity detunings are allowed, and the full dynamical response of the system is included in the treatment of quantum noise. The behavior of the intensity squeezing of both the pump and Raman fields is reported for a wide parameter regime in which optically bistable switching occurs.

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