Your search keyword '"Liu, Zenglin"' showing total 17 results

1. Electrical switching of Ising-superconducting nonreciprocity for quantum neuronal transistor

Author

Xiong, Junlin, Xie, Jiao, Cheng, Bin, Dai, Yudi, Cui, Xinyu, Wang, Lizheng, Liu, Zenglin, Zhou, Ji, Wang, Naizhou, Xu, Xianghan, Chen, Xianhui, Cheong, Sang-Wook, Liang, Shi-Jun, and Miao, Feng

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Nonreciprocal quantum transport effect is mainly governed by the symmetry breaking of the material systems and is gaining extensive attention in condensed matter physics. Realizing electrical switching of the polarity of the nonreciprocal transport without external magnetic field is essential to the development of nonreciprocal quantum devices. However, electrical switching of superconducting nonreciprocity remains yet to be achieved. Here, we report the observation of field-free electrical switching of nonreciprocal Ising superconductivity in Fe3GeTe2/NbSe2 van der Waals (vdW) heterostructure. By taking advantage of this electrically switchable superconducting nonreciprocity, we demonstrate a proof-of-concept nonreciprocal quantum neuronal transistor, which allows for implementing the XOR logic gate and faithfully emulating biological functionality of a cortical neuron in the brain. Our work provides a promising pathway to realize field-free and electrically switchable nonreciprocity of quantum transport and demonstrate its potential in exploring neuromorphic quantum devices with both functionality and performance beyond the traditional devices.

Published

2024

2. Interfacial magnetic spin Hall effect in van der Waals Fe3GeTe2/MoTe2 heterostructure

Author

Dai, Yudi, Xiong, Junlin, Ge, Yanfeng, Cheng, Bin, Wang, Lizheng, Wang, Pengfei, Liu, Zenglin, Yan, Shengnan, Zhang, Cuiwei, Xu, Xianghan, Shi, Youguo, Cheong, Sang-Wook, Xiao, Cong, Yang, Shengyuan A., Liang, Shi-Jun, and Miao, Feng

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The spin Hall effect (SHE) allows efficient generation of spin polarization or spin current through charge current and plays a crucial role in the development of spintronics. While SHE typically occurs in non-magnetic materials and is time-reversal even, exploring time-reversal-odd (T-odd) SHE, which couples SHE to magnetization in ferromagnetic materials, offers a new charge-spin conversion mechanism with new functionalities. Here, we report the observation of giant T-odd SHE in Fe3GeTe2/MoTe2 van der Waals heterostructure, representing a previously unidentified interfacial magnetic spin Hall effect (interfacial-MSHE). Through rigorous symmetry analysis and theoretical calculations, we attribute the interfacial-MSHE to a symmetry-breaking induced spin current dipole at the vdW interface. Furthermore, we show that this linear effect can be used for implementing multiply-accumulate operations and binary convolutional neural networks with cascaded multi-terminal devices. Our findings uncover an interfacial T-odd charge-spin conversion mechanism with promising potential for energy-efficient in-memory computing.

Published

2024

3. On-device phase engineering

Author

Liu, Xiaowei, Shan, Junjie, Cao, Tianjun, Zhu, Liang, Ma, Jiayu, Wang, Gang, Shi, Zude, Yang, Qishuo, Ma, Mingyu, Liu, Zenglin, Yan, Shengnan, Wang, Lizheng, Dai, Yudi, Xiong, Junlin, Chen, Fanqiang, Wang, Buwei, Pan, Chen, Wang, Zhenlin, Cheng, Bin, He, Yongmin, Luo, Xin, Lin, Junhao, Liang, Shi-Jun, and Miao, Feng

Published

2024

4. Cascadable in-memory computing based on symmetric writing and read out

Author

Wang, Lizheng, Xiong, Junlin, Cheng, Bin, Dai, Yudi, Wang, Fuyi, Pan, Chen, Cao, Tianjun, Liu, Xiaowei, Wang, Pengfei, Chen, Moyu, Yan, Shengnan, Liu, Zenglin, Xiao, Jingjing, Xu, Xianghan, Wang, Zhenlin, Shi, Youguo, Cheong, Sang-Wook, Zhang, Haijun, Liang, Shi-Jun, and Miao, Feng

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The building block of in-memory computing with spintronic devices is mainly based on the magnetic tunnel junction with perpendicular interfacial anisotropy (p-MTJ). The resulting asymmetric write and read-out operations impose challenges in downscaling and direct cascadability of p-MTJ devices. Here, we propose that a new symmetric write and read-out mechanism can be realized in perpendicular-anisotropy spin-orbit (PASO) quantum materials based on Fe3GeTe2 and WTe2. We demonstrate that field-free and deterministic reversal of the perpendicular magnetization can be achieved by employing unconventional charge to z-spin conversion. The resulting magnetic state can be readily probed with its intrinsic inverse process, i.e., z-spin to charge conversion. Using the PASO quantum material as a fundamental building block, we implement the functionally complete set of logic-in-memory operations and a more complex nonvolatile half-adder logic function. Our work highlights the potential of PASO quantum materials for the development of scalable energy-efficient and ultrafast spintronic computing., Comment: Accepted by Science Advances

Published

2022

5. Tunable quantum criticalities in an isospin extended Hubbard model simulator

Author

Li, Qiao, Cheng, Bin, Chen, Moyu, Xie, Bo, Xie, Yongqin, Wang, Pengfei, Chen, Fanqiang, Liu, Zenglin, Watanabe, Kenji, Taniguchi, Takashi, Liang, Shi-Jun, Wang, Da, Wang, Chenjie, Wang, Qiang-Hua, Liu, Jianpeng, and Miao, Feng

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Studying strong electron correlations has been an essential driving force for pushing the frontiers of condensed matter physics. In particular, in the vicinity of correlation-driven quantum phase transitions (QPTs), quantum critical fluctuations of multiple degrees of freedom facilitate exotic many-body states and quantum critical behaviors beyond Landau's framework. Recently, moir\'e heterostructures of van der Waals materials have been demonstrated as a highly tunable quantum platform for exploring fascinating strongly correlated quantum physics. Here, we report the observation of tunable quantum criticalities in an experimental simulator of extended Hubbard model with spin-valley isospins arising in chiral-stacked twisted double bilayer graphene. Scaling analysis shows a quantum two-stage criticality manifesting two distinct quantum critical points as the generalized Wigner crystal transits to a Fermi liquid by varying the displacement field, suggesting the emergence of a critical intermediate phase. The quantum two-stage criticality evolves into a quantum pseudo criticality as a high parallel magnetic field is applied. In such pseudo criticality, we find that the quantum critical scaling is only valid above a critical temperature, indicating a weak first-order QPT therein. Our results demonstrate a highly tunable solid-state simulator with intricate interplay of multiple degrees of freedom for exploring exotic quantum critical states and behaviors., Comment: https://www.nature.com/articles/s41586-022-05106-0

Published

2022

6. Electrical switching of Ising-superconducting nonreciprocity for quantum neuronal transistor

Author

Xiong, Junlin, primary, Xie, Jiao, additional, Cheng, Bin, additional, Dai, Yudi, additional, Cui, Xinyu, additional, Wang, Lizheng, additional, Liu, Zenglin, additional, Zhou, Ji, additional, Wang, Naizhou, additional, Xu, Xianghan, additional, Chen, Xianhui, additional, Cheong, Sang-Wook, additional, Liang, Shi-Jun, additional, and Miao, Feng, additional

Published

2024

7. Anisotropic metal-insulator transition in strained VO2(B) single crystal

Author

Ma, Zecheng, primary, Yan, Shengnan, additional, Liu, Zenglin, additional, Xu, Tao, additional, Chen, Fanqiang, additional, Chen, Sicheng, additional, Cao, Tianjun, additional, Sun, Litao, additional, Cheng, Bin, additional, Liang, Shi-Jun, additional, and Miao, Feng, additional

Published

2024

8. Interfacial magnetic spin Hall effect in van der Waals Fe3GeTe2/MoTe2 heterostructure

Author

Dai, Yudi, primary, Xiong, Junlin, additional, Ge, Yanfeng, additional, Cheng, Bin, additional, Wang, Lizheng, additional, Wang, Pengfei, additional, Liu, Zenglin, additional, Yan, Shengnan, additional, Zhang, Cuiwei, additional, Xu, Xianghan, additional, Shi, Youguo, additional, Cheong, Sang-Wook, additional, Xiao, Cong, additional, Yang, Shengyuan A., additional, Liang, Shi-Jun, additional, and Miao, Feng, additional

Published

2024

9. Effect of Boron Additions on the Microstructural Evolution and Properties of Fe-Mo-Cu-Ni-C Sintered Steel

Author

Liu, Zenglin, primary, Wang, Yankang, additional, Yuan, Yong, additional, Luo, Fenghua, additional, Wang, Tao, additional, Han, Wei, additional, and Tan, Liming, additional

Published

2023

10. Interfacial magnetic spin Hall effect in van der Waals Fe3GeTe2/MoTe2 heterostructure.

Author

Dai, Yudi, Xiong, Junlin, Ge, Yanfeng, Cheng, Bin, Wang, Lizheng, Wang, Pengfei, Liu, Zenglin, Yan, Shengnan, Zhang, Cuiwei, Xu, Xianghan, Shi, Youguo, Cheong, Sang-Wook, Xiao, Cong, Yang, Shengyuan A., Liang, Shi-Jun, and Miao, Feng

Subjects

SPIN Hall effect, SPIN polarization, SPIN-orbit interactions, CONVOLUTIONAL neural networks, FERROMAGNETIC materials, SYMMETRY breaking, SPINTRONICS

Abstract

The spin Hall effect (SHE) allows efficient generation of spin polarization or spin current through charge current and plays a crucial role in the development of spintronics. While SHE typically occurs in non-magnetic materials and is time-reversal even, exploring time-reversal-odd (T-odd) SHE, which couples SHE to magnetization in ferromagnetic materials, offers a new charge-spin conversion mechanism with new functionalities. Here, we report the observation of giant T-odd SHE in Fe3GeTe2/MoTe2 van der Waals heterostructure, representing a previously unidentified interfacial magnetic spin Hall effect (interfacial-MSHE). Through rigorous symmetry analysis and theoretical calculations, we attribute the interfacial-MSHE to a symmetry-breaking induced spin current dipole at the vdW interface. Furthermore, we show that this linear effect can be used for implementing multiply-accumulate operations and binary convolutional neural networks with cascaded multi-terminal devices. Our findings uncover an interfacial T-odd charge-spin conversion mechanism with promising potential for energy-efficient in-memory computing. Charge-to-spin conversion allows for the generation and control of spin polarization via a charge current. Typically, this is done with non-magnetic materials with large spin-orbit interactions such as Platinum. Herein, Dai et al demonstrate an intriguing charge-to-spin mechanism, a magnetic spin Hall effect, in a van der Waals heterostructure. [ABSTRACT FROM AUTHOR]

Published

2024

11. Application and trend of bioluminescence imaging in metabolic syndrome research

Author

Li, Shirui, primary, Wang, Kang, additional, Wang, Zeyu, additional, Zhang, Wenjie, additional, Liu, Zenglin, additional, Cheng, Yugang, additional, Zhu, Jiankang, additional, Zhong, Mingwei, additional, Hu, Sanyuan, additional, and Zhang, Yun, additional

Published

2023

12. Sleeve gastrectomy improves lipid dysmetabolism by downregulating the USP20-HSPA2 axis in diet-induced obese mice

Author

Zhang, Wenjie, primary, Shi, Bowen, additional, Li, Shirui, additional, Liu, Zenglin, additional, Li, Songhan, additional, Dong, Shuohui, additional, Cheng, Yugang, additional, Zhu, Jiankang, additional, Zhang, Guangyong, additional, and Zhong, Mingwei, additional

Published

2022

13. Cascadable in-memory computing based on symmetric writing and readout

Author

Wang, Lizheng, primary, Xiong, Junlin, additional, Cheng, Bin, additional, Dai, Yudi, additional, Wang, Fuyi, additional, Pan, Chen, additional, Cao, Tianjun, additional, Liu, Xiaowei, additional, Wang, Pengfei, additional, Chen, Moyu, additional, Yan, Shengnan, additional, Liu, Zenglin, additional, Xiao, Jingjing, additional, Xu, Xianghan, additional, Wang, Zhenlin, additional, Shi, Youguo, additional, Cheong, Sang-Wook, additional, Zhang, Haijun, additional, Liang, Shi-Jun, additional, and Miao, Feng, additional

Published

2022

14. Tunable quantum criticalities in an isospin extended Hubbard model simulator

Author

Li, Qiao, primary, Cheng, Bin, additional, Chen, Moyu, additional, Xie, Bo, additional, Xie, Yongqin, additional, Wang, Pengfei, additional, Chen, Fanqiang, additional, Liu, Zenglin, additional, Watanabe, Kenji, additional, Taniguchi, Takashi, additional, Liang, Shi-Jun, additional, Wang, Da, additional, Wang, Chenjie, additional, Wang, Qiang-Hua, additional, Liu, Jianpeng, additional, and Miao, Feng, additional

Published

2022

15. Strain‐Sensitive Magnetization Reversal of a van der Waals Magnet

Author

Wang, Yu, primary, Wang, Cong, additional, Liang, Shi‐Jun, additional, Ma, Zecheng, additional, Xu, Kang, additional, Liu, Xiaowei, additional, Zhang, Lili, additional, Admasu, Alemayehu S., additional, Cheong, Sang‐Wook, additional, Wang, Lizheng, additional, Chen, Moyu, additional, Liu, Zenglin, additional, Cheng, Bin, additional, Ji, Wei, additional, and Miao, Feng, additional

Published

2020

16. Blackbody Source Emissivity Measurement Method Based on Controlling Surroundings Radiation

Author

Song Jian, 宋健, primary, Hao Xiaopeng, 郝小鹏, additional, Yuan Zundong, 原遵东, additional, Liu Zenglin, 刘曾林, additional, Xu Min, 许敏, additional, and Ding Lei, 丁雷, additional

Published

2015

17. Blackbody Source Emissivity Measurement Method Based on Controlling Surroundings Radiation

Author

宋健 Song Jian, 郝小鹏 Hao Xiaopeng, 原遵东 Yuan Zundong, 刘曾林 Liu Zenglin, 许敏 Xu Min, and 丁雷 Ding Lei

Subjects

Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials

Published

2015