default search action
Journal of Computational Physics, Volume 250
Volume 250, October 2013
- Dirk Gillespie:
Computing the partition function, ensemble averages, and density of states for lattice spin systems by sampling the mean. 1-12 - Li He:
Block-spectral mapping for multi-scale solution. 13-26 - Lei Wu, Craig White, Thomas J. Scanlon, Jason M. Reese, Yonghao Zhang:
Deterministic numerical solutions of the Boltzmann equation using the fast spectral method. 27-52 - D. M. Williams, Patrice Castonguay, Peter E. Vincent, Antony Jameson:
Energy stable flux reconstruction schemes for advection-diffusion problems on triangles. 53-76 - Diego C. Assêncio, Joseph M. Teran:
A second order virtual node algorithm for Stokes flow problems with interfacial forces, discontinuous material properties and irregular domains. 77-105 - Lin Mu, Junping Wang, Guowei Wei, Xiu Ye, Shan Zhao:
Weak Galerkin methods for second order elliptic interface problems. 106-125 - Reza Khazaeli, Saeed Mortazavi, Mahmud Ashrafizaadeh:
Application of a ghost fluid approach for a thermal lattice Boltzmann method. 126-140 - Andree Susanto, Lucian Ivan, Hans De Sterck, Clinton P. T. Groth:
High-order central ENO finite-volume scheme for ideal MHD. 141-164 - Weiming An, Viktor K. Decyk, Warren B. Mori, Thomas M. Antonsen Jr.:
An improved iteration loop for the three dimensional quasi-static particle-in-cell algorithm: QuickPIC. 165-177 - Antonio J. Gil, A. Arranz Carreño, Javier Bonet, Oubay Hassan:
An enhanced Immersed Structural Potential Method for fluid-structure interaction. 178-205 - Yuki Homma, Akiyoshi Hatayama:
Numerical modeling of the thermal force in a plasma for test-ion transport simulation based on a Monte Carlo Binary Collision Model (II) - Thermal forces due to temperature gradients parallel and perpendicular to the magnetic field. 206-223 - Juan A. Acebrón, Ángel Rodríguez-Rozas:
Highly efficient numerical algorithm based on random trees for accelerating parallel Vlasov-Poisson simulations. 224-245 - Binh K. Lieu, Mihailo R. Jovanovic:
Computation of frequency responses for linear time-invariant PDEs on a compact interval. 246-269 - Arvind Baskaran, Zhengzheng Hu, John S. Lowengrub, Cheng Wang, Steven M. Wise, Peng Zhou:
Energy stable and efficient finite-difference nonlinear multigrid schemes for the modified phase field crystal equation. 270-292 - Pavel Tomin, Ivan Lunati:
Hybrid Multiscale Finite Volume method for two-phase flow in porous media. 293-307 - Zhiming Gao, Jiming Wu:
A small stencil and extremum-preserving scheme for anisotropic diffusion problems on arbitrary 2D and 3D meshes. 308-331 - Wenrui Hao, Jonathan D. Hauenstein, Chi-Wang Shu, Andrew J. Sommese, Zhiliang Xu, Yong-Tao Zhang:
A homotopy method based on WENO schemes for solving steady state problems of hyperbolic conservation laws. 332-346 - Wai-Sun Don, Rafael Borges:
Accuracy of the weighted essentially non-oscillatory conservative finite difference schemes. 347-372 - Yanheng Li, Wei Ji:
Stability and convergence analysis of a dynamics-based collective method for random sphere packing. 373-387 - Daniel F. Gordon, M. H. Helle, J. R. Peñano:
Fully explicit nonlinear optics model in a particle-in-cell framework. 388-402 - Dafang Wang, Robert M. Kirby, Robert S. MacLeod, Chris R. Johnson:
Inverse electrocardiographic source localization of ischemia: An optimization framework and finite element solution. 403-424 - Joachim Moortgat, Abbas Firoozabadi:
Higher-order compositional modeling of three-phase flow in 3D fractured porous media based on cross-flow equilibrium. 425-445 - Amneet Pal Singh Bhalla, Rahul Bale, Boyce E. Griffith, Neelesh A. Patankar:
A unified mathematical framework and an adaptive numerical method for fluid-structure interaction with rigid, deforming, and elastic bodies. 446-476 - Jiang Wan, Nicholas Zabaras:
A probabilistic graphical model approach to stochastic multiscale partial differential equations. 477-510 - Jinhai Zhang, Zhen-Xing Yao:
Optimized explicit finite-difference schemes for spatial derivatives using maximum norm. 511-526 - Nathaniel R. Morgan, Mark A. Kenamond, Donald E. Burton, Theodore C. Carney, Daniel Ingraham:
An approach for treating contact surfaces in Lagrangian cell-centered hydrodynamics. 527-554 - Feng Chen, Jie Shen:
A GPU parallelized spectral method for elliptic equations in rectangular domains. 555-564 - Mohamed M. Khader:
Numerical treatment for solving the perturbed fractional PDEs using hybrid techniques. 565-573 - Tetsuro Tsuji, Kazuo Aoki:
Moving boundary problems for a rarefied gas: Spatially one-dimensional case. 574-600 - Kevin W. Connington, Taehun Lee:
Lattice Boltzmann simulations of forced wetting transitions of drops on superhydrophobic surfaces. 601-615 - Peng Chen, Nicholas Zabaras:
A nonparametric belief propagation method for uncertainty quantification with applications to flow in random porous media. 616-643 - Volker Schauer, Christian Linder:
All-electron Kohn-Sham density functional theory on hierarchic finite element spaces. 644-664 - Colm Clancy, Janusz A. Pudykiewicz:
A class of semi-implicit predictor-corrector schemes for the time integration of atmospheric models. 665-684 - Florian Müller, Patrick Jenny, Daniel W. Meyer:
Multilevel Monte Carlo for two phase flow and Buckley-Leverett transport in random heterogeneous porous media. 685-702 - H. C. Yee, D. V. Kotov, Wei Wang, Chi-Wang Shu:
Corrigendum to "Spurious behavior of shock-capturing methods by the fractional step approach: Problems containing stiff source terms and discontinuities" [J. Comput. Physics 241 (2013) 266-291]. 703-712 - Kevin Carlberg, Charbel Farhat, Julien Cortial, David Amsallem:
Corrigendum to "The GNAT method for nonlinear model reduction: Effective implementation and application to computational fluid dynamics and turbulent flows" [J. Comput. Physics 242 (2013) 623-647]. 713
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.