InGaAs-InP Quantum Wire Stark Effect Modulators: Effect of Wire Width in the Optimization of Changes in Excitonic Absorption and Index of Refraction

机译：InGaAs-InP量子线斯塔克效应调制器：线宽在优化激子吸收和折射率变化中的作用

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Quantum wire/dot modulators offer superior performance over their quantum well counterpart due to enhanced excitonic binding energy. This paper presents simulations on InGaAs-InP quantum wire Stark effect optical modulators showing a novel trend. While the excitonic binding energies and absorption coefficients increase as the width of the wire is decreased, the refractive index change An is maximized at a wire width depending on the magnitude of the applied electric field. For example, An is maximized at a width of about 100A for an external electric field of 120kV/cm in an InGaAs quantum wire. This behavior is explained by considering the opposing effects of the wire width on binding energy and changes in the electron-hole overlap function in the presence of an external electric field. Practical InGaAs-InP modulators using V-groove structures are also presented.

机译：由于增强的激子结合能，量子线/点调制器提供了优于量子阱/量子调制器的性能。本文介绍了InGaAs-InP量子线斯塔克效应光调制器的仿真，并显示了一种新趋势。虽然随着线的宽度减小，激子结合能和吸收系数增加，但取决于施加的电场的大小，折射率变化An在线的宽度处最大。例如，对于InGaAs量子线中的120kV / cm的外部电场，An在约100A的宽度处最大化。通过考虑导线宽度对结合能和在存在外部电场时电子-空穴重叠功能的变化的相反影响来解释此行为。还介绍了使用V型槽结构的实用InGaAs-InP调制器。

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《Symposium on Luminescence and Luminescent Materials, Apr 17-19, 2001, San Francisco, California》|2001年|p.G6.9.1-9.6|共6页
会议地点 San Francisco CA(US);San Francisco CA(US)
作者
M. Xu; W. Huang; F. Jain;
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Microsoft Corp., 15400 NE 13th PI, Bellevue, WA 98007;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
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专利

1. 1.55 μm InGaAs-InP quantum wire optical modulators: optimization of wire width to maximize absorption and index of refraction changes due to excitonic transitions [J] . W. Huang, M. Xu, F. Jain International Journal of Infrared and Millimeter Waves . 2001,第7期

机译：1.55μmInGaAs-InP量子线光学调制器：优化线宽以最大程度地吸收由于激子跃迁引起的吸收和折射率变化
2. Temperature and carrier-density dependent excitonic absorption spectra of semiconductor quantum wires [J] . WANG Ting-Dong, HUAI Ping 核技术（英文版） . 2014,第001期

机译：半导体量子线的温度和载流子密度相关的激子吸收光谱
3. Exciton states and excitonic absorption spectra in a cylindrical quantum wire under transverse electric field [J] . S. D. Wu, L. Wan The European Physical Journal B - Condensed Matter and Complex Systems . 2012,第1期

机译：横向电场作用下圆柱量子线的激子态和激子吸收谱
4. Integrated InGaAs-InP Quantum Wire Lasers and Stark Effect Modulators for 1.55 μm Applications [C] . W. Huang, F. Jain Society of Photo-optical Instrumentation Engineers Conference on Integrated Optics . 2002

机译：IngaAs-InP量子丝激光器和STARK效果调节剂为1.55μm应用
5. Optimization of a multilayer alumina template for electrochemical deposition of quantum wires and quantum dots. [D] . Ikram, Ataul Aziz. 2007

机译：优化用于电化学沉积量子线和量子点的多层氧化铝模板。
6. Using wire shaping techniques and holographic optics to optimize deposition characteristics in wire-based laser cladding [O] . N. J. Goffin, R. L. Higginson, J. R. Tyrer -1

机译：使用线成形技术和全息光学技术优化线基激光熔覆中的沉积特性
7. Room-temperature excitonic absorption in quantum wires [O] . Takahashi, Yasushi, Hayamizu, Yuhei, Itoh, Hirotake, 2005

机译：量子线中的室温激子吸收
8. Excitonic Nonlinear Optical Properties In Quantum Wires and Prismatic Quantum Dots. [R] . Madarasz, F. L. 1996

机译：量子线和棱柱量子点中的激子非线性光学特性。

InGaAs-InP Quantum Wire Stark Effect Modulators: Effect of Wire Width in the Optimization of Changes in Excitonic Absorption and Index of Refraction

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