Effect of InP epitaxial layer removal from an MOVPE reactor on in-situ Zn diffusion for the development of focal plane arrays

机译：从MOVPE反应器中去除InP外延层对原位Zn扩散的影响用于焦平面阵列的开发

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Diffusion of Zn in InP epitaxial layers, for application in the development of focal plane arrays using planar geometry, has been investigated. The InP layer has to go through a lithographic process between growth and diffusion, meaning it is exposed to air. We have verified that the surface reconstruction of the material is not affected by air exposure, even though the reconstruction anisotropy changes during diffusion, but it is reestablished once the diffusion is interrupted. On the other hand, the doping diffusion depth is shortened by about 30%, because the unavoidable oxide barrier formed on the surface directly affects the diffusion process. Unfortunately, exposure to air is necessary. Therefore, it is fundamental that diffusion conditions be optimized taking into account the air exposure step.

机译：已经研究了Zn在InP外延层中的扩散，用于在使用平面几何形状的焦平面阵列的开发中的应用。 InP层必须在生长和扩散之间经历光刻工艺，这意味着它要暴露在空气中。我们已经验证了材料的表面重建不受暴露于空气的影响，即使重建各向异性在扩散过程中发生了变化，但是一旦扩散中断，它就会重新建立。另一方面，由于在表面上形成的不可避免的氧化物阻挡层直接影响扩散过程，因此掺杂扩散深度缩短了约30％。不幸的是，必须暴露在空气中。因此，最基本的是考虑到空气暴露步骤来优化扩散条件。

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《Symposium on Microelectronics Technology and Devices》|2018年|1-4|共4页
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M. G. Rua; E. P. Herculano; R. Kawabata; L. D. Pinto; G. S. Vieira; M. P. Pires; P. L. Souza;
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III-V semiconductor materials; Indium phosphide; Epitaxial layers; Zinc; Epitaxial growth; Surface reconstruction; Surface treatment;

机译：III-V族半导体材料;磷化铟;外延层;锌;外延生长;表面重构;表面处理;

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专利

1. Photoelectric Characteristics of Focal Plane Arrays Based on Epitaxial Layers of Indium Antimonide Deposited on a Heavily Doped Substrate [J] . Burlakov I. D., Boltar K. O., Vlasov P. V., Journal of Communications Technology and Electronics . 2017,第3期

机译：基于重掺杂衬底上锑化铟外延层的焦平面阵列的光电特性
2. InP substrate evaluation by MOVPE growth of lattice matched epitaxial layers [J] . J.G. Cederberg, M.E. Overberg Journal of Crystal Growth . 2011,第1期

机译：通过MOVPE生长的晶格匹配外延层评估InP衬底
3. Development of Molecular Beam Epitaxially Grown Hg_(1-x)Cd_xTe for High-Density Vertically-Integrated Photodiode-Based Focal Plane Arrays [J] . F.AQARIDEN, P.D.DREISKE, M.A.KINCH Journal of Electronic Materials . 2007,第8期

机译：分子束外延生长的Hg_（1-x）Cd_xTe用于高密度垂直集成光电二极管焦平面阵列的开发
4. Effect of InP epitaxial layer removal from an MOVPE reactor on in-situ Zn diffusion for the development of focal plane arrays [C] . M. G. Rua, E. P. Herculano, R. Kawabata, Symposium on Microelectronics Technology and Devices . 2018

机译：INP外延层从MOVPE反应器移除对原位Zn扩散的影响焦平面阵列的发展
5. Infrared focal plane array based on gallium indium arsenideGaInAs/InP quantum well infrared photodetectors [D] . Jiang, Jutao 2004

机译：基于砷化镓铟GaInAs / InP量子阱红外光电探测器的红外焦平面阵列
6. The Effect of Buffer Types on the In0.82Ga0.18As Epitaxial Layer Grown on an InP (100) Substrate [O] . Min Zhang, Zuoxing Guo, Liang Zhao, 2018

机译：缓冲剂类型对InP（100）衬底上生长的In0.82Ga0.18As外延层的影响
7. In-Situ Preparation of GaN Sacrificial Layers on Sapphire Substrate in MOVPE Reactor for Self-Separation of the Overgrown GaN Crystal [O] . Sepideh Faraji, Elke Meissner, Roland Weingärtner, 2020

机译：Movpe反应器中蓝宝石衬底上GaN牺牲层的原位制备用于过度分离GaN晶体
8. 1024x1024 Pixel MWIR and LWIR QWIP Focal Plane Arrays and 320x256 MWIR:LWIR Pixel Colocated Simultaneous Dualband QWIP Focal Plane Arrays [R] . Gunapala, Sarath D., Bandara, Sumith V., Liu, John K., 2005

机译：1024x1024像素mWIR和LWIR QWIp焦平面阵列和320x256 mWIR：LWIR像素共置同时双频QWIp焦平面阵列

Effect of InP epitaxial layer removal from an MOVPE reactor on in-situ Zn diffusion for the development of focal plane arrays

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