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Xianliang Wu
Researcher at Anhui University
Publications - 185
Citations - 972
Xianliang Wu is an academic researcher from Anhui University. The author has contributed to research in topics: Finite-difference time-domain method & Symplectic geometry. The author has an hindex of 14, co-authored 154 publications receiving 724 citations. Previous affiliations of Xianliang Wu include China University of Geosciences (Wuhan) & Hefei Normal University.
Papers
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Journal ArticleDOI
Survey on Symplectic Finite-Difference Time-Domain Schemes for Maxwell's Equations
TL;DR: In this paper, a survey of high-order symplectic finite-difference time-domain schemes, which use th-order integration time stepping and thorder staggered space differencing, is presented.
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Age and composition of granulite and pyroxenite xenoliths in Hannuoba basalts reflect Paleogene underplating beneath the North China Craton
Jianping Zheng,Jianping Zheng,Jianping Zheng,William L. Griffin,Liang Qi,Suzanne Y. O'Reilly,Min Sun,S. Zheng,Norman J. Pearson,Jian-Feng Gao,Cheuk-Man Yu,Y.P. Su,Huayun Tang,Qiang Liu,Xianliang Wu +14 more
TL;DR: In situ U-Pb and Hf-isotope systematics of zircons, mineral chemistry of silicates and whole-rock major-element, trace-element and platinum-group element (PGE) data are reported for five mafic xenoliths (granulites and pyroxenite) in the Hannuoba Cenozoic basalts, North China as mentioned in this paper.
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A Broadband Electronically Mode-Reconfigurable Orbital Angular Momentum Metasurface Antenna
TL;DR: In this article, a 2 × 2 low-profile broadband triple-mode OAM array antenna is presented, which can be dynamically controlled with electrostatic method, and the antenna element consists of a 4 × 4 metasurface array, a 90° phase-shifting reconfigurable feed network (RFN), and a square driven patch with two switchable feeding ports (SWP).
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Application of the symplectic finite-difference time-domain scheme to electromagnetic simulation
TL;DR: Numerical results suggest that the SFDTD scheme is more efficient than the traditional FDTD method and other high-order methods, and can save computational resources.
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Optimization of the Artificially Anisotropic Parameters in WCS-FDTD Method for Reducing Numerical Dispersion
TL;DR: In this paper, a 3D artificial anisotropy weakly conditionally stable finite-difference time domain (AA-WCS-FDTD) method is presented to reduce the dispersion error without introducing additional computational cost and complexity.