High-Performance Spin-Polarized Photocathodes Using a GaAs/GaAsP Strain-Compensated Superlattice

Xiuguang Jin; Atsushi Mano; Fumiaki Ichihashi; Naoto Yamamoto; Yoshikazu Takeda

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High-Performance Spin-Polarized Photocathodes Using a GaAs/GaAsP Strain-Compensated Superlattice

机译：使用GaAs / GaAsP应变补偿超晶格的高性能自旋极化光电阴极

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Optimized transmission-type photocathodes with a GaAs/GaAsP strain-compensated superlattice were developed. The strain-compensated superlattice structures were of high crystal quality, and electron beams from the photocathodes had a maximum spin polarization of 92% and a quantum efficiency of 0.4% without an antireflection coating. The strain-compensated superlattice structure effectively prevented strain relaxation, and the high spin polarization was maintained up to a superlattice layer thickness of 300 nm. Increasing the superlattice layer thickness effectively improved the quantum efficiency while keeping the super high-brightness.

机译：开发了具有GaAs / GaAsP应变补偿超晶格的优化透射型光电阴极。应变补偿的超晶格结构具有高晶体质量，并且在没有抗反射涂层的情况下，来自光电阴极的电子束的最大自旋极化为92％，量子效率为0.4％。应变补偿的超晶格结构有效地防止了应变松弛，并且高自旋极化一直维持到300 nm的超晶格层厚度。增加超晶格层的厚度可有效提高量子效率，同时保持超高亮度。

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《_Applied Physics Express》 |2013年第1期|015801.1-015801.3|共3页
作者
Xiuguang Jin; Atsushi Mano; Fumiaki Ichihashi; Naoto Yamamoto; Yoshikazu Takeda;
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Institute for Advanced Research, Nagoya University, Nagoya 464-8603, Japan,Synchrotron Radiation Research Center, Nagoya University, Nagoya 464-8602, Japan;

Synchrotron Radiation Research Center, Nagoya University, Nagoya 464-8602, Japan;

Graduate School of Engineering, Nagoya University, Nagoya 464-8603, Japan;

Synchrotron Radiation Research Center, Nagoya University, Nagoya 464-8602, Japan,Graduate School of Engineering, Nagoya University, Nagoya 464-8603, Japan;

Synchrotron Radiation Research Center, Nagoya University, Nagoya 464-8602, Japan;

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1. 30-kV spin-polarized transmission electron microscope with GaAs–GaAsP strained superlattice photocathode [J] . Kuwahara M., Kusunoki S., Jin X. G., Applied Physics Letters . 2012,第3期

机译：GaAs–GaAsP应变超晶格光电阴极的30 kV自旋极化透射电子显微镜
2. 30-kV spin-polarized transmission electron microscope with GaAs-GaAsP strained superlattice photocathode [J] . M. Kuwahara, S. Kusunoki, X. G. Jin, Applied Physics Letters . 2012,第3期

机译：带有GaAs-GaAsP应变超晶格光电阴极的30 kV自旋极化透射电子显微镜
3. Highly Spin-polarized Electron Photocathode Based On Gaas-gaasp Superlattice Grown On Mosaic-structured Buffer Layer [J] . Xiuguang Jin, Yuya Maeda, Takashi Saka, Journal of Crystal Growth . 2008,第23期

机译：基于镶嵌结构缓冲层上生长的Gaas-gaasp超晶格的高自旋极化电子光电阴极
4. One hundred picosecond spin relaxation in GaAs/GaAsP strain-compensated superlattice as highly spin-polarized electron source [C] . Shunsuke Ohki, Xiuguang Jin, Masaki Asakawa, 2016 Compound Semiconductor Week Includes 28th International Conference on Indium Phosphide amp; Related Materials amp; 43rd International Symposium on Compound Semiconductors . 2016

机译：作为高自旋极化电子源的GaAs / GaAsP应变补偿超晶格中的一百皮秒自旋弛豫
5. AIGaAs 及びGaAsP 中の深い準位に関する研究利用統計を見る [D] . 野毛宏 1986

机译：查看AIGaAs和GaAsP中深层的研究利用率统计信息
6. Strain-Compensated InGaAsP Superlattices for Defect Reduction of InP Grown on Exact-Oriented (001) Patterned Si Substrates by Metal Organic Chemical Vapor Deposition [O] . Ludovico Megalini, Simone Tommaso Šuran Brunelli, William O. Charles, 2018

机译：应变补偿的InGaAsP超晶格用于通过金属有机化学气相沉积减少在精确取向的（001）图案化Si衬底上生长的InP的缺陷
7. High-performance strain-compensated InGaAs-GaAsP-GaAs (λ = 1.17 μm) quantum-well diode lasers [O] . Tansu, Nelson, Mawst, Luke J. 2001

机译：高性能应变补偿InGaas-Gaasp-Gaas（λ=1.17μm）量子阱二极管激光器
8. Enhancement of Spin-Polarized Electron Emission from Strain-Compensated AlInGaAs-GaAsP Superlattices [R] . Roberts, J. S. 2006

机译：应变补偿alInGaas-Gaasp超晶格增强自旋极化电子发射

High-Performance Spin-Polarized Photocathodes Using a GaAs/GaAsP Strain-Compensated Superlattice

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