High-lifetime GaAs on Si using GeSi buffers and its potential for space photovoltaics

Carlin JA.; Fitzgerald A.; Bulsara M.; Ringel SA.

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High-lifetime GaAs on Si using GeSi buffers and its potential for space photovoltaics

机译：使用GeSi缓冲剂的Si上的高寿命GaAs及其在空间光伏中的潜力

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Record-high minority carrier lifetimes exceeding 10 ns are reported for GaAs grown on Si wafers using compositionally graded GeSi buffers coupled with monolayer-scale control of the GaAs/Ge interface nucleation during molecular beam epitaxy. The GaAs layers are free of anti-phase domain disorder, with threading dislocation densities at or below 2 x 10(6) cm(-2) Secondary ion mass spectroscopy (SIMS) reveals that crossdiffusion of Ga, As and Ge at the GaAs/Ge interface formed on the graded buffers are below detection limits in the interface region. Test diodes yielded excellent I-V characteristics, matching those of GaAs diodes on Ge and GaAs wafers, indicating that to a first order, threading dislocations do not limit device performance. (C) 2001 Elsevier Science B.V. All rights reserved. [References: 13]

机译：据报道，在分子束外延过程中，使用成分分级的GeSi缓冲液与GaAs / Ge界面成核的单层规模控制相结合，在Si晶片上生长的GaAs达到了创纪录的少数载流子寿命，超过10 ns。 GaAs层没有反相域紊乱，其线位错密度等于或小于2 x 10（6）cm（-2）二次离子质谱（SIMS）显示Ga，As和Ge在GaAs /处的交叉扩散在渐变缓冲区上形成的Ge界面在界面区域中低于检测极限。测试二极管具有出色的I-V特性，与Ge和GaAs晶圆上的GaAs二极管的I-V特性相匹配，这表明从一开始来看，螺纹位错不会限制器件的性能。（C）2001 Elsevier Science B.V.保留所有权利。 [参考：13]

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《Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion 》 |2001年第4期| 共10页
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Carlin JA.; Fitzgerald A.; Bulsara M.; Ringel SA.;
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1. High-lifetime GaAs on Si using GeSi buffers and its potential for space photovoltaics [J] . Carlin JA., Fitzgerald A., Bulsara M., Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2001 ,第1a4期

机译：使用GeSi缓冲剂的Si上的高寿命GaAs及其在空间光伏中的潜力
2. A GeSi-Buffer Structure for Growth of High-Quality GaAs Epitaxial Layers on a Si Substrate [J] . Edward Y.Chang, Tsung-Hsi Yang, Guangli Luo, Journal of Electronic Materials . 2005 ,第1期

机译：用于在硅衬底上生长高质量GaAs外延层的GeSi缓冲结构
3. A GeSi-Buffer Structure for Growth of High-Quality GaAs Epitaxial Layers on a Si Substrate [J] . Edward Y.Chang, Tsung-Hsi Yang, Guangli Luo, Journal of Electronic Materials . 2005 ,第1期

机译：用于在硅衬底上生长高质量GaAs外延层的GeSi缓冲结构
4. High efficiency GaAs-on-Si solar cells with high V_ocusing graded GeSi buffers [C] . Carlin J.A., Hudait M.K., Ringel S.A., International Conference on Wireless and Optical Communications, 2005. 14th Annual WOCC 2005 . 2005

机译：具有高V _{oc 的高效硅上GaAs太阳能电池使用渐变的GeSi缓冲区}
5. Investigation and development of high quality gallium arsenide-on-silicon for space photovoltaics using a graded germanium silicon buffer. [D] . Carlin, John Anthony. 2001

机译：使用梯度锗硅缓冲剂的太空光伏光伏用高品质硅砷化镓研究与开发。
6. Dataset representing the effect of indirect band gap region of Cd-free AlGaAs buffer layer in Cu(InGa)Se photovoltaic cell [O] . Sadia Islam Shachi, Ali Newaz Bahar 2017

机译：数据集表示Cu（InGa）Se光伏电池中无Cd的AlGaAs缓冲层间接带隙区域的影响
7. The Financial Viability of Solar Photovoltaic Canopies as Urban Climate Change Mitigation: An Analysis of the Potential Utilization of Public Space in Boston, Massachusetts [O] . Clayton Hunter, James G. Baldwin, Michael L. Mann 2014

机译：太阳能光伏檐篷的城市气候变化减缓的财务可行性 - 马萨诸塞州波士顿公共空间潜在利用的分析
8. High Quality GaAs Growth by MBE on Si Using GeSi Buffers and Prospects for Space Photovoltaics [R] . Carlin, J. A., Ringel, S. A., Fitzgerald, E. A., 2005

机译：利用Gesi缓冲器通过mBE在si上实现高质量Gaas生长和空间光伏技术的发展前景

High-lifetime GaAs on Si using GeSi buffers and its potential for space photovoltaics

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