Xiaoming Wang
Xiaoming Wang
Professor of Mathematics, Southern University of Science and Technology
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Zitiert von
Zitiert von
Emergence of a novel mobile colistin resistance gene, mcr-8, in NDM-producing Klebsiella pneumoniae
X Wang, Y Wang, Y Zhou, J Li, W Yin, S Wang, S Zhang, J Shen, Z Shen, ...
Emerging microbes & infections 7 (1), 1-9, 2018
Nonlinear dynamics and statistical theories for basic geophysical flows
A Majda, X Wang
Cambridge University Press, 2006
Second-order convex splitting schemes for gradient flows with Ehrlich–Schwoebel type energy: application to thin film epitaxy
J Shen, C Wang, X Wang, SM Wise
SIAM Journal on Numerical Analysis 50 (1), 105-125, 2012
Coupled Stokes-Darcy model with Beavers-Joseph interface boundary condition
Y Cao, M Gunzburger, F Hua, X Wang
Communications in Mathematical Sciences 8 (1), 1-25, 2010
Finite element approximations for Stokes–Darcy flow with Beavers–Joseph interface conditions
Y Cao, M Gunzburger, X Hu, F Hua, X Wang, W Zhao
SIAM Journal on Numerical Analysis 47 (6), 4239-4256, 2010
Unconditionally stable schemes for equations of thin film epitaxy
C Wang, X Wang, SM Wise
Discrete Contin. Dyn. Syst 28 (1), 405-423, 2010
A second order in time, uniquely solvable, unconditionally stable numerical scheme for Cahn–Hilliard–Navier–Stokes equation
D Han, X Wang
Journal of Computational Physics 290, 139-156, 2015
Attractors for non-compact semigroups via energy equations
I Moise, R Rosa, X Wang
Nonlinearity 11 (5), 1369, 1998
Boundary layers associated with incompressible Navier–Stokes equations: the noncharacteristic boundary case
R Temam, X Wang
Journal of Differential Equations 179 (2), 647-686, 2002
Convergence analysis and error estimates for a second order accurate finite element method for the Cahn–Hilliard–Navier–Stokes system
AE Diegel, C Wang, X Wang, SM Wise
Numerische Mathematik 137, 495-534, 2017
Late Cenozoic biostratigraphy of the Linxia basin, northwestern China
T Deng, ZX Qiu, BY Wang, X Wang, SK Hou
Fossil mammals of Asia, 243-273, 2013
Positivity-preserving, energy stable numerical schemes for the Cahn-Hilliard equation with logarithmic potential
W Chen, C Wang, X Wang, SM Wise
Journal of Computational Physics: X 3, 100031, 2019
A linear energy stable scheme for a thin film model without slope selection
W Chen, S Conde, C Wang, X Wang, SM Wise
Journal of Scientific Computing 52 (3), 546-562, 2012
Water vapor‐weighted mean temperature and its impact on the determination of precipitable water vapor and its linear trend
X Wang, K Zhang, S Wu, S Fan, Y Cheng
Journal of Geophysical Research: Atmospheres 121 (2), 833-852, 2016
Parallel, non-iterative, multi-physics domain decomposition methods for time-dependent Stokes-Darcy systems
Y Cao, M Gunzburger, X He, X Wang
Mathematics of Computation 83 (288), 1617-1644, 2014
On the behavior of the solutions of the Navier-Stokes equations at vanishing viscosity
R Temam, X Wang
Annali della Scuola Normale Superiore di Pisa-Classe di Scienze 25 (3-4 …, 1997
An energy equation for the weakly damped driven nonlinear Schrödinger equations and its application to their attractors
X Wang
Physica D: Nonlinear Phenomena 88 (3-4), 167-175, 1995
Robin–Robin domain decomposition methods for the steady-state Stokes–Darcy system with the Beavers–Joseph interface condition
Y Cao, M Gunzburger, X He, X Wang
Numerische Mathematik 117 (4), 601-629, 2011
Topographic growth of the Jishi Shan and its impact on basin and hydrology evolution, NE Tibetan Plateau
JE Saylor, JC Jordan, KE Sundell, X Wang, S Wang, T Deng
Basin Research 30 (3), 544-563, 2018
A Kato type theorem on zero viscosity limit of Navier-Stokes flows
X Wang
Indiana University Mathematics Journal, 223-241, 2001
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