Chaos Synchronization of InGaAsP Lasers

IF 1 Q3 PHYSICS, MULTIDISCIPLINARY East European Journal of Physics Pub Date : 2023-09-04 DOI:10.26565/2312-4334-2023-3-70
Mohammed H.H. Al-Jassani, Aqeel I. Faris, Hussein H. Khudhur
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Abstract

The optical output of a semiconductor laser can fluctuate chaotically by modulating its direct current in limited conditions of the modulated current signal parameters in terms of modulation frequency and modulation index. In this work, single, double, and chaotic pulses of an InGaAsP laser with direct current modulation, are numerically presented through a bifurcation diagram. Numerically, the unidirectional optical coupling system realizes chaotic synchronization between two identical InGaAsP lasers with direct current modulation, as the transmitter/receiver configuration. The transmission time for transmitting light from the transmitted laser to the received laser is essential for controlling the quality of chaos synchronization. The transmission time applies on the order of nanoseconds. Chaos synchronization quality is estimated by a correlation plot and calculated by the cross-correlation coefficient. This study observed the best synchronization quality (complete chaos synchronization) when the two lasers are identical. On the other hand, the chaotic synchronization between two non-identical InGaAsP lasers was investigated. In this case, complete chaos synchronization is not found, and the quality of chaotic synchronization was observed to decrease as the mismatch between the parameters of the two lasers increased.
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InGaAsP激光器的混沌同步
在调制频率和调制指数等调制电流信号参数有限的条件下,通过调制半导体激光器的直流电,可以使其光输出产生混沌波动。本文通过分岔图对直流调制InGaAsP激光器的单脉冲、双脉冲和混沌脉冲进行了数值模拟。数值上,单向光耦合系统实现了两个相同的InGaAsP激光器之间以直流调制作为发送/接收配置的混沌同步。光从发射激光器传输到接收激光器的传输时间是控制混沌同步质量的关键。传输时间以纳秒为数量级。混沌同步质量由相关图估计,由互相关系数计算。本研究观察到当两个激光器相同时,同步质量最佳(完全混沌同步)。另一方面,研究了两个非相同InGaAsP激光器之间的混沌同步。在这种情况下,没有发现完全的混沌同步,混沌同步的质量随着两个激光器参数不匹配的增加而下降。
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来源期刊
East European Journal of Physics
East European Journal of Physics PHYSICS, MULTIDISCIPLINARY-
CiteScore
1.10
自引率
25.00%
发文量
58
审稿时长
8 weeks
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