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Your search keyword '"Wang, Wen-Wei"' showing total 148 results
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148 results on '"Wang, Wen-Wei"'

1. Topological spin-orbit-coupled fermions beyond rotating wave approximation

Author

Zhang, Han, Wang, Wen-Wei, Qiao, Chang, Zhang, Long, Liang, Ming-Cheng, Wu, Rui, Wang, Xu-Jie, Liu, Xiong-Jun, and Zhang, Xibo

Subjects
Condensed Matter - Quantum Gases
Abstract

The realization of spin-orbit-coupled ultracold gases has driven a wide range of researches and is typically based on the rotating wave approximation (RWA). By neglecting the counter-rotating terms, RWA characterizes a single near-resonant spin-orbit (SO) coupling in a two-level system. Here, we propose and experimentally realize a new scheme for achieving a pair of two-dimensional (2D) SO couplings for ultracold fermions beyond RWA. This work not only realizes the first anomalous Floquet topological Fermi gas beyond RWA, but also significantly improves the lifetime of the 2D-SO-coupled Fermi gas. Based on pump-probe quench measurements, we observe a deterministic phase relation between two sets of SO couplings, which is characteristic for our beyond-RWA scheme and enables the two SO couplings to be simultaneously tuned to the optimum 2D configurations. We observe intriguing band topology by measuring two-ring band-inversion surfaces, quantitatively consistent with a Floquet topological Fermi gas in the regime of high Chern numbers. Our study can open an avenue to explore exotic SO physics and anomalous topological states based on long-lived SO-coupled ultracold fermions., Comment: 13 pages, 4 figures in the main text and 3 figures in the supplemental material

Published
2023
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3. Realization of Qi-Wu-Zhang model in spin-orbit-coupled ultracold fermions

Author

Liang, Ming-Cheng, Wei, Yu-Dong, Zhang, Long, Wang, Xu-Jie, Zhang, Han, Wang, Wen-Wei, Qi, Wei, Liu, Xiong-Jun, and Zhang, Xibo

Subjects
Condensed Matter - Quantum Gases, Physics - Atomic Physics, Quantum Physics
Abstract

Based on the optical Raman lattice technique, we experimentally realize the Qi-Wu-Zhang model for quantum anomalous Hall phase in ultracold fermions with two-dimensional (2D) spin-orbit (SO) coupling. We develop a novel protocol of pump-probe quench measurement to probe, with minimal heating, the resonant spin flipping on particular quasi-momentum subspace called band-inversion surfaces. With this protocol we demonstrate the first Dirac-type 2D SO coupling in a fermionic system, and detect non-trivial band topology by observing the change of band-inversion surfaces as the two-photon detuning varies. The non-trivial band topology is also observed by slowly loading the atoms into optical Raman lattices and measuring the spin textures. Our results show solid evidence for the realization of the minimal SO-coupled quantum anomalous Hall model, which can provide a feasible platform to investigate novel topological physics including the correlation effects with SO-coupled ultracold fermions., Comment: 7 pages, 4 figures in the main text, and 6 pages, 3 figures in the supplemental material

Published
2021
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28. Design of Intelligent Soft-starter for Three-phase Asynchronous Motor Based on ARM and CPLD

Author

PAN Ke-zhan, WANG Wen-wei, and TANG Wei-ping

Subjects
three-phase asynchronous motor, soft-starter, motor protection, arm, cpld, modbus, Mining engineering. Metallurgy, TN1-997
Abstract

A design scheme of intelligent soft-starter for three-phase asynchronous motor was introduced. The soft-starter is designed by use of LPC2364 as controlling core and EPM7128SLC84-15 as logic signal process circuit, and can communicate with upper computer through Modbus field bus. The soft-starter can softly start three-phase asynchronous motors with diverse power by multi ways such as torque and realize more than twenty motor protections by real-timely monitoring motor's running parameters. The actual running result showed the soft-starter has stable running, simple operation, high anti-interference performance and convenient extension.

Published
2010

29. Flexural behaviour of reinforced concrete beams strengthened with a composite reinforcement layer: BFRP grid and ECC

Author

Zheng, Yu-Zhou, Wang, Wen-Wei, and Brigham, John C.

Subjects
Reinforced concrete -- Mechanical properties -- Structure -- Analysis, Business, Construction and materials industries
Abstract

ABSTRACT In this paper, a new strengthening technique for reinforced concrete (RC) beams is proposed by combining Basalt fiber Reinforced Polymer (BFRP) grid and Engineered Cementitious Composites (ECC) as a [...]

Published
2016
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38. A modified model for predicting cyclic stress–strain relationship of fiber reinforced polymer grid reinforced engineered cementitious composites.

Author

Zhu, Zhong‐Feng, Wang, Wen‐Wei, Yin, Shi‐Ping, Tian, Jun, Zheng, Yu‐Zhou, and Huang, Hui

Subjects
*STRAINS & stresses (Mechanics), *DIGITAL image correlation, *ELASTIC modulus, *CEMENT composites, *COMPOSITE materials
Abstract

To verify the universality of the cycling model of carbon fiber reinforced polymer (CFRP) grid reinforced engineered cementitious composite (CFRP‐ECC) material, a complementary experiment was carried out to investigate the cycling behavior of basalt fiber reinforced polymer (BFRP) grid reinforced ECC (BFRP‐ECC) composite material using both traditional measurement and digital image correlation system. Elastic modulus, layers, and surface treatment of BFRP grid and the loading schemes were considered as the major variables in the experiment. Compared with the CFRP‐ECC, BFRP‐ECC had better ultimate and residual deformation capabilities. Test results also showed that the effective strain of the internal BFRP grid reached 80–90% of the ultimate material strain, therefore, higher loading capacity of BFRP‐ECC material was obtained. A unified model was proposed to analyze the cyclic stress–strain behavior for both BFRP‐ECC and CFRP‐ECC materials. The validation of the analysis model was verified through comparisons between the predicted values and the test results. [ABSTRACT FROM AUTHOR]

Published
2021
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