Subtle modulation of the nonlinear optical properties of GaAs quantum dot by the interplay between noise and impurity extension

IF 1.7 4区物理与天体物理 Q3 PHYSICS, CONDENSED MATTER

The European Physical Journal B Pub Date : 2025-02-14 DOI:10.1140/epjb/s10051-025-00880-y

Bhaskar Bhakti, Swarnab Datta, Anuja Ghosh, Manas Ghosh

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Abstract

Current enquiry puts emphasis on unveiling the role of subtle interplay between spatial dissemination of impurity and Gaussian white noise on a few nonlinear optical (NLO) properties of the doped GaAs quantum dot (QD). The NLO properties include group index (GI), DC-Kerr effect (DCKE), electro-absorption coefficient (EAC) and optical gain (OG). GI, DCKE and EAC manifest red-shift with the enhancement of the spatial width of the dopant, both including and excluding noise. In case of OG, however, both with and without noise, the peak shift becomes non-uniform as the dopant stretch increases. The interplay between noise and the impurity spread becomes different for additive and multiplicative noise. Delicate modulation of impurity spread, in combination with the mode of introduction of noise, can control the regimes of fast and slow light in the system, the magnitudes of DCKE and EAC and can even cause maximization of OG and the current density in the vicinity of some typical spatial spread of the dopant.

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噪声与杂质扩展相互作用对砷化镓量子点非线性光学特性的微妙调制

目前的研究重点是揭示杂质的空间传播和高斯白噪声之间的微妙相互作用对掺杂砷化镓量子点（QD）的一些非线性光学特性的作用。NLO性能包括基团指数（GI）、DC-Kerr效应（DCKE）、电吸收系数（EAC）和光增益（OG）。GI、DCKE和EAC均随掺杂物空间宽度的增大而出现红移，包括噪声和不含噪声。而在OG情况下，无论有无噪声，峰值位移都随着掺杂拉伸的增加而变得不均匀。对于加性噪声和乘性噪声，噪声与杂质扩散之间的相互作用是不同的。杂质扩散的精细调制，结合噪声的引入方式，可以控制系统中的快光和慢光的状态，DCKE和EAC的大小，甚至可以使OG和电流密度在掺杂剂的一些典型空间扩散附近最大化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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