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Design of Strain-Engineered GeSn/GeSiSn Quantum Dots for Mid-IR Direct Bandgap Emission on Si Substrate

机译：Si衬底上中红外直接带隙发射的应变工程GeSn / GeSiSn量子点设计

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摘要

Strain-engineered self-assembled GeSn/GeSiSn quantum dots in Ge matrix have been numerically investigated aiming to study their potentiality towards direct bandgap emission in the mid-IR range. The use of GeSiSn alloy as surrounding media for GeSn quantum dots (QD) allows adjusting the strain around the QD through the variation of Si and/or Sn composition. Accordingly, the lattice mismatch between the GeSn quantum dots and the GeSiSn surrounding layer has been tuned between − 2.3 and − 4.5% through the variation of the Sn barrier composition for different dome-shaped QD sizes. The obtained results show that the emission wavelength, fulfilling the specific QD directness criteria, can be successively tuned over a broad mid-IR range from 3 up to7 μm opening new perspectives for group IV laser sources fully integrated in Si photonic systems for sensing applications.

机译：对Ge基体中应变工程自组装的GeSn / GeSiSn量子点进行了数值研究，旨在研究它们对中红外范围内直接带隙发射的潜力。使用GeSiSn合金作为GeSn量子点（QD）的周围介质，可以通过改变Si和/或Sn的成分来调整QD周围的应变。因此，通过针对不同圆顶形QD尺寸的Sn势垒组成的变化，GeSn量子点与GeSiSn周围层之间的晶格失配已被调节在-2.3至-4.5％之间。获得的结果表明，满足特定QD方向性标准的发射波长可以在3至7μm的宽中红外范围内连续进行调谐，从而为完全集成在Si光子系统中以进行传感应用的IV组激光源打开了新的视野。

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期刊名称 Nanoscale Research Letters
作者
Reem Al-Saigh; Mourad Baira; Bassem Salem; Bouraoui Ilahi;
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作者单位

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年(卷),期 2018(13),-1
年度 2018
页码 172
总页数 5
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
GeSn GeSiSn Quantum dots Direct bandgap Mid-IR;

机译：GeSn;GeSiSn;量子点;直接带隙;中红外;

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专利

1. Design of Strain-Engineered GeSn/GeSiSn Quantum Dots for Mid-IR Direct Bandgap Emission on Si Substrate [J] . Reem Al-Saigh, Mourad Baira, Bassem Salem, Nanoscale Research Letters . 2018,第1期

机译：Si衬底上中红外直接带隙发射的应变工程GeSn / GeSiSn量子点设计
2. Direct bandgap type-I GeSn/GeSn quantum well on a GeSn- and Ge- buffered Si substrate [J] . Perry C. Grant, Joe Margetis, Yiyin Zhou, AIP Advances . 2018,第2期

机译：GeSn和Ge缓冲的Si衬底上的直接带隙I型GeSn / GeSn量子阱
3. Tuning direct bandgap GeSn/Ge quantum dots' interband and intraband useful emission wavelength: Towards CMOS compatible infrared optical devices [J] . Baira Mourad, Salem Bassem, Madhar Niyaz Ahamad, Superlattices and microstructures . 2018,第MAY期

机译：调整直接带隙GeSn / Ge量子点的带间和带内有用发射波长：迈向CMOS兼容的红外光学器件
4. Radiative decay engineering of direct bandgap emission in silver ion-implanted polarized Silicon quantum dots [C] . Singh, Akhilesh K., Grycznski, Karol G., Neogi, Arup, CLEO;Conference on Lasers and Electro-Optics;Quantum Electronics and Laser Science Conference;QELS . 2010

机译：银离子注入的极化硅量子点中直接带隙发射的辐射衰减工程
5. Semiconductor Quantum Dots for Mid-IR Light Emission. [D] . Yu, Lan. 2016

机译：用于中红外发光的半导体量子点。
6. Electroluminescent Warm White Light‐Emitting Diodes Based on Passivation Enabled Bright Red Bandgap Emission Carbon Quantum Dots [O] . Haoran Jia, Zhibin Wang, Ting Yuan, 2019

机译：基于钝化的亮红色带隙发射碳量子点的电致发光暖白光发光二极管
7. Direct bandgap type-I GeSn/GeSn quantum well on a GeSn- and Ge- buffered Si substrate [O] . Perry C. Grant, Joe Margetis, Yiyin Zhou, 2018

机译：直接带隙类型-I GESN / GESN量子阱在GESN和GE-缓冲的SI衬底上阱

Design of Strain-Engineered GeSn/GeSiSn Quantum Dots for Mid-IR Direct Bandgap Emission on Si Substrate

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