Amplitude Instability of Coupled Lasers

M. Möller; K.S. Thornburg; Rajarshi Roy

European Quantum Electronics Conference
Technical Digest Series (Optica Publishing Group, 1996),
paper QThG10

Amplitude Instability of Coupled Lasers

M. Möller, K.S. Thornburg, and Rajarshi Roy

European Quantum Electronics Conference 1996

Hamburg Germany
8–13 September 1996
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Poster Sessions (QThG)

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M. Möller, K. S. Thornburg, and R. Roy, "Amplitude Instability of Coupled Lasers," in European Quantum Electronics Conference, Technical Digest Series (Optica Publishing Group, 1996), paper QThG10.

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Abstract

We report the observation of an amplitude instability near the phase-locking threshold of two single-mode, linearly polarized, Nd:YAG (neodymium doped yttrium-aluminum garnet) lasers excited by pump beams in the same crystal, and coupled to each other through the overlap of the infrared light [1]. The system is known to display phase-locking above a certain threshold of the coupling strength [1] and synchronized chaos under circumstances of pump or loss modulation [2] with a threshold in the same order of magnitude. A comprehensive set of measurements allows us to characterize the dynamics of the intensities and relative phase of the lasers, and to investigate the amplitude instability of the lasers as a function of the coupling between them, which can by controlling the lateral separation of the lasers be accurately determined and varied through a range of many orders of magnitude.

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