Optical bistability
In optics, optical bistability is an attribute of certain optical devices where two resonant transmissions states are possible and stable, dependent on the input. Optical devices with a feedback mechanism, e.g. a laser, provide two methods of achieving bistability.
- Absorptive bistability utilizes an absorber to block light inversely dependent on the intensity of the source light. The first bistable state resides at a given intensity where no absorber is used. The second state resides at the point where the light intensity overcomes the absorber's ability to block light.
- Refractive bistability utilizes an optical mechanism that changes its refractive index inversely dependent on the intensity of the source light. The first bistable state resides at a given intensity where no optical mechanism is used. The second state resides at the point where a certain light intensity causes the light to resonate to the corresponding refractive index.
This effect is caused by two factors
- Nonlinear atom-field interaction
- Feedback effect of mirror
Important cases that might be regarded are:
- Atomic detuning
- Cooperating factor
- Cavity mistuning
Applications of this phenomenon include its use in optical transmitters, memory elements and pulse shapers.
References
Guangsheng He; Song H. Liu (1999). Physics of Nonlinear Optics. World Scientific. pp. 422–. ISBN 978-981-02-3319-8.
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