Abstract

Compressible artifical dielectrics, such as bubbly fluids, have sufficiently large acousto-optical coefficients that they can be utilized as nonlinear media for acoustical-optical four-wave-mixing processes in which two of the input beams are sound waves and the other two are electromagnetic waves. We examine frequency shifting and acoustic-beam deflection at visible wavelengths as well as acoustically pumped optical phase conjugation at microwave frequencies in these media.

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