CRITICAL PHENOMENA IN OPTICAL BISTABILITY AND CHAOS

WANG PENG-YE; ZHANG HONG-JUN; DAI JIAN-HUA

doi:10.7498/aps.34.1233

Abstract
The critical phenomena of bistability is discussed on the basis of the relaxation equation of the nonlinear systems with a time-delayed feedback. We find that the critical slowing down at the edges of bistable region possesses consistency with the divergence of the time duration of intermittency. The critica1 exponent is 1/2. We also find that, different from the critical points at the bistable region edges, there are consistencies with the period-doubling bifurcation points and split bifurcation points at the cusp point (in cusp catastrophe model of bistability). The critical exponent is 1. The abo-ve-mentioned results possess universal properties. The computer experiments have been made in the liquid crystal hybrid optical bistable device. The results are in agreement with the analyses.
Authors and contacts
WANG PENG-YE,

ZHANG HONG-JUN,

DAI JIAN-HUA

1.
中国科学院物理研究所
References

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Vol. 34, Issue 10 - 1985-05-20

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