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Dynamics of electrooptic bistable devices with delayed feedback

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2 Author(s)
Neyer, A. ; Lehrstuhl für Nachrichtentechnik, Hagen, West Germany ; Voges, Edgar

The dynamic behavior of electrooptic bistable devices with delayed feedback is investigated theoretically and experimentally. The operation principle of the system is analyzed by the method of iterated maps. Stable, bistable, periodic, higher periodic, and chaotic solutions are discussed and realized experimentally by using an integrated Mach-Zehnder interferometer on LiNbO3as a basic nonlinear element. Taking into account the periodic modulator characteristic, the application of this device as a simple and fast bistable and monostable multivibrator is demonstrated. In addition, the synchronization properties of the astable multivibrator are investigated.

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Quantum Electronics, IEEE Journal of  (Volume:18 ,  Issue: 12 )