Hysteresis in Optics: A Detailed Overview
Optical hysteresis refers to the phenomenon where the optical response of a system or device depends on the history of the input optical signal. This means that the output of an optical system can be
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Optical Module Hysteresis Effect
Quantity comprehension of optical hysteresis loop
In this work, a hysteresis model is derived to capture sophisticated hysteresis of transmittance as observed in VO2. After phenomenological considerations, a model with four
Why We Test Lenses Over Temperature: Model Validation, Focus Hysteresis
We have temperature-dependent hysteresis in our focal position. The fact that this phenomenon is consistent across all lenses suggests that it is inherent to the design of the lens
Silicon Optical Memory: Non-Volatile Optoelectronic Devices via Si
By manipulating the optoelectronic effect of this device, we introduce a hysteresis effect at the silicon-silicon oxide interface, which in turn demonstrates multi-level, non-volatile optical data
Critical optical-hysteresis regime and optical-bistability
This work clarifies the relation between optical hysteresis and classical optical bistability, which provides theoretical references for the modulation of optical hysteresis in experiment.
Hysteresis phenomenon and multistability in figure-of-eight
We study, in this paper, the hysteresis dependence and the number of pulses in steady state as a function of both the small signal gain and the nonlinear coefficient of microstructured fiber.
Distribution and simultaneous local control of the optical hysteresis
We experimentally demonstrate the distribution of a bistable optical signal to two locations, and then independently and simultaneously control the hysteresis shape at each location using local sets of
Actual origin and precise control of asymmetrical hysteresis in an
This study clearly reveals that the hysteresis actually originates from the electrode interface effect, and thus nonvolatile multilevel memory and adjustable logic operation can be well implemented by a
Hysteresis Loops, Dynamical Systems and Magneto-Optics
In this work we present a connection between dynamical systems and hysteresis loops and after that, we present some interesting hysteresis loops obtained using the Transverse Magneto-Optical Kerr
Optical and electrical hysteresis behavior. (A) Optical transmission
The impending collapse of Moore-like growth of computational power has spurred the development of alternative computing architectures, such as optical or electro-optical computing.
Why We Test Lenses Over Temperature: Model
We have temperature-dependent hysteresis in our focal position. The fact that this phenomenon is consistent across all lenses suggests that it is
Actual origin and precise control of asymmetrical
This study clearly reveals that the hysteresis actually originates from the electrode interface effect, and thus nonvolatile multilevel memory and adjustable logic