Exploiting Noise and Polarization Bistability in Vertical‐Cavity Surface‐Emitting Lasers for Fast Pulse Generation and Logic Operations

Zamora-Munt, Jordi; Masoller, Cristina

doi:10.1002/9783527639823.ch2

Cited by 3 publications

(1 citation statement)

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“…Эффект переключения поляризации (ПП) в поверхностно излучающих полупроводниковых лазерах (VCSEL), связанный с резким переключением выходного излучения с одной линейной поляризации на ортогональную при плавном изменении инжекционного тока, хорошо известен [1] и широко используется как для исследования внутренней динамики полупроводниковых лазеров, так и в разнообразных прикладных сферах. Более того, область ПП является областью сильной неустойчивости, в которой флуктуации играют существенную роль в определении режимов работы лазера и характеристик его выходного излучения [2]. Поэтому важным представляется вопрос об источниках флуктуаций и их относительном вкладе в окончательные эффекты.…”

Section: Introductionunclassified

The influence various sources of fluctuation on the statistical parameters of the vertical cavity surface emitting lasers output radiation

Буров

Gorbatsevich

Labatsevich

2019

Journal of the Belarusian State University. Physics

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Based on statistical modeling, a numerical analysis of the effects exerted by different factors (fluctuations of the spontaneous emission intensity, nonequilibrium carrier concentration, injection current density) on the statistical characteristics of radiation at the output of surface emitting semiconductor lasers in the region of polarization instability has been performed. In this region the effect of fluctuations is maximal, offering the possibility for substantiated conclusions about relative effects of the parameters. In a theory of semiconductor lasers it is thought that the intensity fluctuations of spontaneous emission represent the dominant source of fluctuations, whereas all other sources may be neglected. As demonstra ted by the results of conducted statistical modeling, this statement is too rigorous; moreover, such a source is not dominant. Taking into consideration fluctuations of the carrier concentration, which result in fluctuations of the amplification factor, we can derive a complete set of the relationships observed experimentally. This result cannot be associated with features our model because in our theory spontaneous emission is a significant factor. If the influence of spontaneous emission would be the dominant factor, it would affect the simulation results. The obtained data make it possible to doubt the key role of the spontaneous emission intensity fluctuations in the process of statistical characteristics formation for the output radiation and to take into account fluctuations of the nonequilibrium carrier concentration.

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Section: Introductionunclassified