非线性量子点发光二极管动力学与光电反馈同步

Hussein ALHusseini, Amin Alkhursan, Kais Al naimee, S. Ajeel, Sora F. Abdalah, R. Meucci
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引用次数: 1

摘要

研究了受光电反馈作用的量子点发光二极管(QD-LED)的三变量无量纲模型。在反馈强度和延迟时间的关系下,我们分析了发射光强度的复杂分岔情况以及所有动态变量的时间序列、快速傅立叶变换(FFT)和相平面,以阐明发光二极管的动态特性。从分岔图中可以看出,量子点led的混沌动力学完全由OEFB强度和延迟时间的变化决定。我们的研究结果表明,较小的延迟时间导致了向OEFB发射的光的重复周期性。此外,我们还研究了通过单向和双向耦合系统耦合的两个量子二极管的混沌同步。当周期系统不相同时,无论单向系统还是双向系统,根据耦合强度参数,系统都表现为完全同步。对残差混沌、平均相干性和熵进行了讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nonlinear quantum dot light emitting diode dynamics and synchronization with optoelectronic feedback
We studies a three-variable dimensionless model for a quantum dot light emitting diode (QD-LED) subject to optoelectronic feedback (OEFB). In dependence of the feedback strength and delay-time we analyze complex bifurcation scenarios for the intensity of the emitted light as well as time series, fast Fourier translate (FFT) and phase plane of all dynamic variables in order to elucidate the dynamics of the light emitting diode. The chaotic dynamic is completely determined by both the variation of the OEFB strength and delay-time of the QD-LED, as evidenced by bifurcation diagram. Our results show that small delay time lead to repeat periodicity of the light emitting towards OEFB. Furthermore, we study chaos synchronization of two QD-LED which are coupled via a unidirectional and bidirectional coupling system. When periodic systems are non-identical, both unidirectional and bidirectional systems depending on the coupling strength parameter the system exhibits completely synchronization. Residual chaos, the mean coherence and entropy are discussed as well.
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