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14 results on '"Song, Anke"'

1. Light-induced giant enhancement of nonreciprocal transport at KTaO3-based interfaces

Author

Zhang, Xu, Zhu, Tongshuai, Zhang, Shuai, Chen, Zhongqiang, Song, Anke, Zhang, Chong, Gao, Rongzheng, Niu, Wei, Chen, Yequan, Fei, Fucong, Tai, Yilin, Li, Guoan, Ge, Binghui, Lou, Wenkai, Shen, Jie, Zhang, Haijun, Chang, Kai, Song, Fengqi, Zhang, Rong, and Wang, Xuefeng

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics
Abstract

Nonlinear transport is a unique functionality of noncentrosymmetric systems, which reflects profound physics, such as spin-orbit interaction, superconductivity and band geometry. However, it remains highly challenging to enhance the nonreciprocal transport for promising rectification devices. Here, we observe a light-induced giant enhancement of nonreciprocal transport at the superconducting and epitaxial CaZrO3/KTaO3 (111) interfaces. The nonreciprocal transport coefficient undergoes a giant increase with three orders of magnitude up to 105 A-1T-1. Furthermore, a strong Rashba spin-orbit coupling effective field of 14.7 T is achieved with abundant high-mobility photocarriers under ultraviolet illumination, which accounts for the giant enhancement of nonreciprocal transport coefficient. Our first-principles calculations further disclose the stronger Rashba spin-orbit coupling strength and the longer relaxation time in the photocarrier excitation process, bridging the light-property quantitative relationship. Our work provides an alternative pathway to boost nonreciprocal transport in noncentrosymmetric systems and facilitates the promising applications in opto-rectification devices and spin-orbitronic devices., Comment: 38 pages, 17 figures

Published
2024

5. Light-induced giant enhancement of nonreciprocal transport at KTaO3-based interfaces.

Author

Zhang, Xu, Zhu, Tongshuai, Zhang, Shuai, Chen, Zhongqiang, Song, Anke, Zhang, Chong, Gao, Rongzheng, Niu, Wei, Chen, Yequan, Fei, Fucong, Tai, Yilin, Li, Guoan, Ge, Binghui, Lou, Wenkai, Shen, Jie, Zhang, Haijun, Chang, Kai, Song, Fengqi, Zhang, Rong, and Wang, Xuefeng

Subjects
OPTICAL control, SUPERCONDUCTIVITY, SPIN-orbit interactions
Abstract

Nonlinear transport is a unique functionality of noncentrosymmetric systems, which reflects profound physics, such as spin-orbit interaction, superconductivity and band geometry. However, it remains highly challenging to enhance the nonreciprocal transport for promising rectification devices. Here, we observe a light-induced giant enhancement of nonreciprocal transport at the superconducting and epitaxial CaZrO3/KTaO3 (111) interfaces. The nonreciprocal transport coefficient undergoes a giant increase with three orders of magnitude up to 105 A−1 T−1. Furthermore, a strong Rashba spin-orbit coupling effective field of 14.7 T is achieved with abundant high-mobility photocarriers under ultraviolet illumination, which accounts for the giant enhancement of nonreciprocal transport coefficient. Our first-principles calculations further disclose the stronger Rashba spin-orbit coupling strength and the longer relaxation time in the photocarrier excitation process, bridging the light-property quantitative relationship. Our work provides an alternative pathway to boost nonreciprocal transport in noncentrosymmetric systems and facilitates the promising applications in opto-rectification devices and spin-orbitronic devices. Optical control is an alternative pathway to boost nonlinear transport in noncentrosymmetric systems. Here, the authors observe a light-induced giant enhancement of nonreciprocal transport coefficient as high as 105 A−1 T−1 at KTaO3-based Rashba interfaces. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Ion-Liquid-Gated KTaO3-Based Electric Double Layer Transistor

Author

Zhang, Chong, Zhang, Xu, Xu, Ruijie, Liu, Ruxin, Niu, Wei, Gao, Rongzheng, Song, Anke, Zhuang, Wenzhuo, Chen, Zhongqiang, Zhang, Rong, and Wang, Xuefeng

Abstract

The electric double layer transistor (EDLT) based on the two-dimensional electron gases (2DEGs) at the LaAlO $_{\mathbf {{3}}}$ /KTaO $_{\mathbf {{3}}}$ (LAO/KTO) interface is fabricated. Using the ionic liquid gating (ILG), we increase the carrier density of 2DEGs from $2.49\times 10^{\mathbf {{13}}}$ to $4.37\times 10^{\mathbf {{13}}}$ cm $^{\mathbf {-{2}}}$ and Hall mobility from 140 to 229 cm $^{\mathbf {{2}}}\,\,\cdot \,\,\text{V}^{\mathbf {-{1}}}\,\,\cdot \,\,\text{s}^{\mathbf {-{1}}}$ at 5 K by sweeping gate voltage from −2.5 to 3 V. Meanwhile, the gate-tunable Kondo effect is observed once the carrier density at 5 K is lower than the critical value of $3.08\times 10^{\mathbf {{13}}}$ cm $^{\mathbf {-{2}}}$ . Notably, the Rashba spin-orbit coupling of 2DEGs is further regulated by the ILG with the largest spin-splitting energy of 25.42 meV. These results suggest that the ILG serves as a powerful technique to explore the unprecedented properties of KTO-based 2DEGs and design the EDLT devices with superior performances.

Published
2023
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8. Additional file 1 of High-Efficient Spin Injection in GaN at Room Temperature Through A Van der Waals Tunnelling Barrier

Author

Lin, Di, Kang, Wenyu, Wu, Qipeng, Song, Anke, Wu, Xuefeng, Liu, Guozhen, Wu, Jianfeng, Wu, Yaping, Li, Xu, Wu, Zhiming, Cai, Duanjun, Yin, Jun, and Kang, Junyong

Abstract

Additional file 1: Supplementary Information for SEM image of h-BN, IFFT image of the Fe region for the TEM image, hysteresis loops of the CoFeB film, the measured voltage signals for the spin valve devices and simulation of injected current distribution along the z direction of GaN film.

Published
2022
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10. Nonlinear Amplifications in the Air Gap Response of a Deep Draft Semi-Submersible

Author

Song Anke, Xiaolong Yang, and Cai Yuanlang

Subjects
Nonlinear system, Hull, Environmental science, Air gap (plumbing), Marine engineering
Abstract

This paper addresses the nonlinear amplifications in the upwelling crests of air gap responses from the wave basin model test of a deep draft semi-submersible in extreme wave condition. Contributions from nonlinear incident waves, vessel motions and wave-body interactions are analyzed separately. Results from the analyses suggest that, nonlinear amplification factors are larger than predictions from second order corrected model for incident and diffracted waves. Low frequency roll and pitch motions will induce larger nonlinear negative vertical motions for points in down-wave area, thus worsen air gap performance. Upwellings are highly related to diffracted wave elevations. Local run-ups due to highly nonlinear wave-body interactions around column walls could result in the nonlinear amplification factors in this area to be up to 230%.

Published
2020

13. Regulating the circular polarization in nitride-based light-emitting diodes through the spin injection

Author

Wu, Yaping, primary, Chen, Jiajun, additional, Zhou, Jiangpeng, additional, Lan, Jinshen, additional, Zeng, Hao, additional, He, Bing, additional, Zhong, Zhibai, additional, Guo, Jian, additional, Song, Anke, additional, Xia, Yuanzheng, additional, Li, Xu, additional, Wu, Zhiming, additional, Huang, Shengli, additional, and Kang, Junyong, additional

Published
2019
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14. Light-induced giant enhancement of nonreciprocal transport at KTaO 3 -based interfaces.

Author

Zhang X, Zhu T, Zhang S, Chen Z, Song A, Zhang C, Gao R, Niu W, Chen Y, Fei F, Tai Y, Li G, Ge B, Lou W, Shen J, Zhang H, Chang K, Song F, Zhang R, and Wang X

Abstract

Nonlinear transport is a unique functionality of noncentrosymmetric systems, which reflects profound physics, such as spin-orbit interaction, superconductivity and band geometry. However, it remains highly challenging to enhance the nonreciprocal transport for promising rectification devices. Here, we observe a light-induced giant enhancement of nonreciprocal transport at the superconducting and epitaxial CaZrO 3 /KTaO 3 (111) interfaces. The nonreciprocal transport coefficient undergoes a giant increase with three orders of magnitude up to 10 5  A -1 T -1 . Furthermore, a strong Rashba spin-orbit coupling effective field of 14.7 T is achieved with abundant high-mobility photocarriers under ultraviolet illumination, which accounts for the giant enhancement of nonreciprocal transport coefficient. Our first-principles calculations further disclose the stronger Rashba spin-orbit coupling strength and the longer relaxation time in the photocarrier excitation process, bridging the light-property quantitative relationship. Our work provides an alternative pathway to boost nonreciprocal transport in noncentrosymmetric systems and facilitates the promising applications in opto-rectification devices and spin-orbitronic devices., (© 2024. The Author(s).)

Published
2024
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