利用带间级联激光器产生中红外波长的宽带光混沌

O. Spitz, Y. B. Shuai, S. Zhao, P. Didier, D. Díaz-Thomas, A. N. Baranov, L. Cerutti, D. Rontani, J. Wu, F. Grillot
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引用次数: 0

摘要

中红外波段的非线性动力学在各种应用中都很有意义,但迄今为止主要局限于量子级联激光器。在本文中,我们展示了带间级联激光器可以产生带宽在 GHz 范围内的复杂光学混沌,其性能优于量子级联激光器的混沌。我们信号的混沌性质通过全面的时间序列分析得到了证实。在短腔外部光反馈条件下的半导体激光建模证实了我们在实验中观察到的高偏置混沌运行。这些结果为中红外波长的应用(如私人自由空间通信)铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Generation of broadband optical chaos at mid-infrared wavelength with an interband cascade laser
Nonlinear dynamics at mid-infrared wavelength is of interest for various applications but has been mainly limited to quantum cascade lasers so far. In this article, we show that interband cascade lasers can generate complex optical chaos with bandwidth in the GHz range and this outperforms the performances of quantum cascade laser chaos. The chaos nature of our signal is confirmed by a thorough time-series analysis. Modeling of the semiconductor laser under short-cavity external optical feedback allows confirming the high bias chaos operation that we observe experimentally. These results pave the way for applications at mid-infrared wavelength, such as private free-space communication.
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