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Thermal detuning effects in a standing wave acoustooptic modulator

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Abstract

The acoustic absorption loss in a standing wave acoustooptic modulator produces a temperature rise in the acoustooptic medium that can lead to distortion, discrete transitions, and hysteresis in curves of diffracted optical power vs frequency or temperature. Experimental data obtained with a barium sodium niobate standing wave modulator are presented.

© 1978 Optical Society of America

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