Improvement of temperature stability in columnar quantum dots by introducing side barriers with larger bandgap energy for semiconductor optical amplifiers

机译：通过为半导体光放大器引入具有较大带隙能量的侧面势垒来提高柱状量子点的温度稳定性

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We have investigated the temperature dependence of InAs columnar quantum dots (CQDs) surrounded by InGaAsP barriers with different bandgap energies toward high-temperature performance for semiconductor optical amplifiers. It was found that larger bandgap energy in InGaAsP side barriers enabled to increase the quasi-Fermi level (F) separation between the conduction and valence bands from theory. We have fabricated two types of CQD-SOAs with different side barrier energies and compared temperature characteristics. Decrease in the material gains for CQD with a larger side barrier bandgap was suppressed by 20% with increasing temperature from 25 °C to 85 °C.© (2012) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.

机译：我们已经研究了具有不同带隙能量的InGaAsP势垒包围的InAs柱状量子点（CQD）的温度依赖性对半导体光放大器的高温性能的影响。从理论上发现，InGaAsP侧垒中的较大带隙能量能够增加导带和价带之间的准费米能级（F）分离。我们制造了两种类型的具有不同侧面势垒能的CQD-SOA，并比较了温度特性。随着温度从25°C到85°C的升高，具有较大的侧面势垒带隙的CQD的材料增益降低被抑制了20％。©（2012）COPYRIGHT光电子仪器工程师协会（SPIE）。摘要的下载仅允许个人使用。

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来源
《Quantum dots and nanostructures: synthesis, characterization, and modeling IX.》|2012年|p.0S.1-0S.7|共7页
会议地点 San Francisco CA(US)
作者
Nami Yasuoka; Shigekazu Okumura; Yu Tanaka;
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Fujitsu Labs., Ltd. (Japan) and Photonics Electronics Technology Research Association (Japan);

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原文格式 PDF
正文语种 eng
中图分类材料;材料;
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专利

1. Polarization-Insensitive Quantum Dot Semiconductor Optical Amplifiers Using Strain-Controlled Columnar Quantum Dots [J] . Yasuoka N., Ebe H., Kawaguchi K., Lightwave Technology, Journal of . 2012,第1期

机译：使用应变控制柱状量子点的偏振不敏感量子点半导体光放大器
2. Optical properties of columnar InAs quantum dots on InP for semiconductor optical amplifiers [J] . Kenichi Kawaguchi, Nami Yasuoka, Mitsuru Ekawa, Applied Physicsletters . 2008,第12期

机译：半导体光放大器InP上柱状InAs量子点的光学特性
3. Growth of Columnar Quantum Dots by Metalorganic Vapor-Phase Epitaxy for Semiconductor Optical Amplifiers [J] . Kenichi Kawaguchi, Nami Yasuoka, Mitsuru Ekawa, Japanese journal of applied physics . 2008,第4issue2期

机译：金属有机气相外延法生长半导体光学放大器的柱状量子点
4. Highly efficient columnar-quantum-dot semiconductor optical amplifier in high temperature condition [C] . Sekiguchi S., Yasuoka N., Okumura S., 2010 Conference on Optical Fiber Communication, collocated National Fiber Optic Engineers Conference (OFC/NFOEC) . 2010

机译：高温条件下的高效柱状量子点半导体光放大器
5. Slow and fast light using quantum-dot and quantum-well semiconductor optical amplifiers. [D] . Kondratko, Piotr Konrad. 2007

机译：使用量子点和量子阱半导体光学放大器的慢速和快光。
6. Quantum coherence induces pulse shape modification in a semiconductor optical amplifier at room temperature [O] . Mirco Kolarczik, Nina Owschimikow, Julian Korn, -1

机译：室温下量子相干引起半导体光放大器中的脉冲形状改变
7. Ramsey fringes in a room temperature quantum dot semiconductor optical amplifier [O] . Khanonkin, Igor, Mishra, Akhilesh K., Karni, Ouri, 2017

机译：Ramsey在室温量子点半导体光学中流苏放大器
8. Improved Temperature Characteristics in Quantum Dot Lasers with Indirect-Bandgap Barriers [R] . Soref, R. A. , Sun, G. , Khurgin, J. B. 2003

机译：具有间接带隙势垒的量子点激光器的温度特性改善

Improvement of temperature stability in columnar quantum dots by introducing side barriers with larger bandgap energy for semiconductor optical amplifiers

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