Artificial control of optical gain polarization by stacking quantum dot layers

T. Kita; N. Tamura; O. Wada; M. Sugawara; Y. Nakata; H. Ebe; Y. Arakawa

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Artificial control of optical gain polarization by stacking quantum dot layers

机译：通过堆叠量子点层来人工控制光增益偏振

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Polarization insensitivity of InAs/GaAs quantum dot (QD) optical amplifier has been demonstrated by controlling the dot shape. The height of the QD has been controlled by stacking closely InAs islands to form a columnar QD. Room-temperature polarized amplified spontaneous emission from the columnar QDs has been investigated by using variable stripe-length method. With increasing the aspect ratio, transverse-magnetic-mode-dominant optical gain has been achieved. We obtained almost polarization insensitive optical gain for QDs with seven stacking layers.

机译：通过控制点的形状，可以证明InAs / GaAs量子点（QD）光放大器的偏振不敏感性。通过紧密堆叠InAs岛以形成柱状QD，可以控制QD的高度。利用可变条长法研究了柱状量子点的室温极化放大自发发射。随着长宽比的增加，已经实现了横向磁模式为主的光学增益。对于具有七个堆叠层的QD，我们获得了几乎不偏振的光学增益。

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来源
《Applied Physics Letters》 |2006年第21期|p.211106.1-211106.3|共3页
作者
T. Kita; N. Tamura; O. Wada; M. Sugawara; Y. Nakata; H. Ebe; Y. Arakawa;
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作者单位

Department of Electrical and Electronics Engineering, Faculty of Engineering, Kobe University, 1-1Rokkodai, Nada, Kobe 657-8501, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类应用物理学;计量学;
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1. Polarization-insensitive fiber-to-fiber gain of semiconductor optical amplifier using closely stacked InAs/GaAs quantum dots [J] . Kaizu Toshiyuki, Kakutani Tomoya, Akahane Kouichi, Japanese journal of applied physics . 2020,第3期

机译：使用紧密堆叠的INAS / GaAs量子点的半导体光放大器的极化不敏感光纤增益
2. Polarization control of gain of stacked InAs/InP (100) quantum dots at 1.55 μm: interplay between ground and excited state transitions [J] . S. Anantathanasarn, P. J. van Vetdhoven, T. J. Eijkemans, Applied Physicsletters . 2008,第12期

机译：堆叠控制的InAs / InP（100）量子点的增益为1.55μm的偏振控制：基态和激发态跃迁之间的相互作用
3. Wavelength controlled multilayer-stacked linear InAs quantum dot arrays on InGaAsP/InP (100) by self-organized anisotropic strain engineering: A self-ordered quantum dot crystal [J] . N. Sritirawisarn, F. W. M. van Otten, T. J. Eijkemans, Applied Physicsletters . 2008,第13期

机译：通过自组织各向异性应变工程在InGaAsP / InP（100）上进行波长控制的多层堆叠线性InAs量子点阵列：自排序量子点晶体
4. Polarization anisotropy of electroluminescence and net-modal gain in highly stacked InAs/GaAs quantum-dot laser devices [C] . Toshiyuki Kaizu, Masaya Suwa, Takaya Andachi, 2016 Compound Semiconductor Week Includes 28th International Conference on Indium Phosphide amp; Related Materials amp; 43rd International Symposium on Compound Semiconductors . 2016

机译：高度堆叠的InAs / GaAs量子点激光器件中电致发光的偏振各向异性和净模态增益
5. Probing cyclotron resonant signatures and the AC quantum Hall effect in monolayer and heterogeneous graphene multilayers through mid-infrared, magneto-optical, polarization-sensitive spectroscopy. [D] . Ellis, Chase Trevor. 2013

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6. A quantum dot single-photon source with on-the-fly all-optical polarization control and timed emission [O] . Dirk Heinze, Dominik Breddermann, Artur Zrenner, -1

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7. Artificial control of optical gain polarization by stacking quantum dot layers [O] . Kita Takashi, Tamura N., Wada Osamu, 2006

机译：通过堆叠量子点层来人工控制光增益偏振
8. Controlling the Nuclear Polarization in Quantum Dots Using Optical Pulse Shape with a Modest Bandwidth [R] . Carter, S. G., Economou, S. E., Shabaev, A., 2011

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Artificial control of optical gain polarization by stacking quantum dot layers

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