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ORCIDJournal of Computational Physics, Volume 375
Volume 375, December 2018
- Bryan D. Quaife
, M. Nicholas J. Moore:
A boundary-integral framework to simulate viscous erosion of a porous medium. 1-21 - Lincheng Xu, Fang-Bao Tian, John Young, Joseph C. S. Lai:
A novel geometry-adaptive Cartesian grid based immersed boundary-lattice Boltzmann method for fluid-structure interactions at moderate and high Reynolds numbers. 22-56 - Fredrik Fryklund, Erik Lehto, Anna-Karin Tornberg:
Partition of unity extension of functions on complex domains. 57-79 - Louisa Schlachter, Florian Schneider:
A hyperbolicity-preserving stochastic Galerkin approximation for uncertain hyperbolic systems of equations. 80-98 - Daniel Rabinovich, Eli Turkel, Dan Givoli:
An augmented time reversal method for source and scatterer identification. 99-119 - Tie Zhang, Qingxin Guo:
The finite difference/finite volume method for solving the fractional diffusion equation. 120-134 - Toheeb Biala, A. Q. M. Khaliq:
Parallel algorithms for nonlinear time-space fractional parabolic PDEs. 135-154 - Darren Engwirda:
Generalised primal-dual grids for unstructured co-volume schemes. 155-176 - Paul Bartholomew, Fabian Denner, Mohd Hazmil Abdol-Azis, Andrew Marquis, Berend G. M. van Wachem:
Unified formulation of the momentum-weighted interpolation for collocated variable arrangements. 177-208 - Abel Gargallo-Peiró, Matias Avila, Herbert Owen, Luis Prieto-Godino, Arnau Folch:
Mesh generation, sizing and convergence for onshore and offshore wind farm Atmospheric Boundary Layer flow simulation with actuator discs. 209-227 - Vamsi Spandan, Detlef Lohse, Marco D. de Tullio, Roberto Verzicco:
A fast moving least squares approximation with adaptive Lagrangian mesh refinement for large scale immersed boundary simulations. 228-239 - D. Lee, Artur Palha:
A mixed mimetic spectral element model of the rotating shallow water equations on the cubed sphere. 240-262 - Wen Yan, Michael J. Shelley:
Universal image systems for non-periodic and periodic Stokes flows above a no-slip wall. 263-270 - Dang Van Nguyen, Johan Jansson, Johan Hoffman, Jing-Rebecca Li:
A partition of unity finite element method for computational diffusion MRI. 271-290 - John Erick Ortiz Guzman, Axelle Pillain, Lyes Rahmouni, Francesco Paolo Andriulli:
A Calderon regularized symmetric formulation for the electroencephalography forward problem. 291-306 - Jiamin Jiang, Hamdi A. Tchelepi:
Dissipation-based continuation method for multiphase flow in heterogeneous porous media. 307-336 - Gurpreet Singh, Gergina Pencheva, Mary F. Wheeler:
An approximate Jacobian nonlinear solver for multiphase flow and transport. 337-351 - Scott A. Roberts, Hector Mendoza, Victor E. Brunini, David R. Noble:
A verified conformal decomposition finite element method for implicit, many-material geometries. 352-367 - Manuel J. Pfeifenberger, Michael Rumetshofer, Wolfgang von der Linden:
Nested sampling, statistical physics and the Potts model. 368-392 - Florian Monteghetti, Denis Matignon, Estelle Piot:
Energy analysis and discretization of nonlinear impedance boundary conditions for the time-domain linearized Euler equations. 393-426 - Paul A. Ullrich, Daniel R. Reynolds, Jorge E. Guerra, Mark A. Taylor:
Impact and importance of hyperdiffusion on the spectral element method: A linear dispersion analysis. 427-446 - Niklas Wintermeyer, Andrew R. Winters, Gregor J. Gassner, Timothy Warburton:
An entropy stable discontinuous Galerkin method for the shallow water equations on curvilinear meshes with wet/dry fronts accelerated by GPUs. 447-480 - Jordi Casacuberta, Koen J. Groot, Henry J. Tol, Stefan Hickel:
Effectivity and efficiency of selective frequency damping for the computation of unstable steady-state solutions. 481-497 - Shi Tao, Haolong Zhang, Zhaoli Guo, Lian-Ping Wang:
A combined immersed boundary and discrete unified gas kinetic scheme for particle-fluid flows. 498-518 - Arnout M. P. Boelens, Daniele Venturi, Daniel M. Tartakovsky:
Parallel tensor methods for high-dimensional linear PDEs. 519-539 - Chris J. Budd, Andrew T. T. McRae, Colin J. Cotter:
The scaling and skewness of optimally transported meshes on the sphere. 540-564 - Rohit K. Tripathy, Ilias Bilionis:
Deep UQ: Learning deep neural network surrogate models for high dimensional uncertainty quantification. 565-588 - N. Ringue, Siva Nadarajah:
An optimization-based framework for anisotropic hp-adaptation of high-order discretizations. 589-618 - Philippe Chartier, Nicolas Crouseilles, Xiaofei Zhao:
Numerical methods for the two-dimensional Vlasov-Poisson equation in the finite Larmor radius approximation regime. 619-640 - Yongle Du:
Implicit boundary equations for conservative Navier-Stokes equations. 641-658 - Jun Zhu, Chi-Wang Shu:
A new type of multi-resolution WENO schemes with increasingly higher order of accuracy. 659-683 - Namrata K. Patel, Amneet Pal Singh Bhalla, Neelesh A. Patankar:
A new constraint-based formulation for hydrodynamically resolved computational neuromechanics of swimming animals. 684-716
- Jie Zhang, Ming-Jiu Ni:
Direct numerical simulations of incompressible multiphase magnetohydrodynamics with phase change. 717-746
- Chandrashekar Ganapathy, Denis V. Voskov:
Multiscale reconstruction in physics for compositional simulation. 747-762 - Kelsey L. DiPietro, Ronald D. Haynes, Weizhang Huang, Alan E. Lindsay, Yufei Yu:
Moving mesh simulation of contact sets in two dimensional models of elastic-electrostatic deflection problems. 763-782 - Ricardo Cortez:
Regularized Stokeslet segments. 783-796 - Michael L. Minion, Robert I. Saye:
Higher-order temporal integration for the incompressible Navier-Stokes equations in bounded domains. 797-822 - Yuichi Kuya, Kosuke Totani, Soshi Kawai:
Kinetic energy and entropy preserving schemes for compressible flows by split convective forms. 823-853 - Vito Zago, Giuseppe Bilotta, Alexis Hérault, Robert A. Dalrymple, Luigi Fortuna, Annalisa Cappello, Gaetana Ganci, Ciro Del Negro:
Semi-implicit 3D SPH on GPU for lava flows. 854-870 - Peter Korn, Leonidas Linardakis:
A conservative discretization of the shallow-water equations on triangular grids. 871-900 - Wouter Tierens:
Explicit and provably stable spatiotemporal FDTD refinement. 901-917 - Pablo Miguel Ramos, Nikos Ch. Karayiannis, Manuel Laso:
Off-lattice simulation algorithms for athermal chain molecules under extreme confinement. 918-934 - Sofia Eriksson, Jan Nordström:
Finite difference schemes with transferable interfaces for parabolic problems. 935-949 - Ahmad Al Takash, Marianne Beringhier, Mohammad Hammoud, Jean-Claude Grandidier:
Numerical approach based on the collection of the most significant modes to solve cyclic transient thermal problems involving different time scales. 950-959 - Mahdi Esmaily, J. A. K. Horwitz:
A correction scheme for two-way coupled point-particle simulations on anisotropic grids. 960-982 - Adolfo F. Viñas, Alexander J. Klimas:
Flux-balance Vlasov simulation with filamentation filtration. 983-1004 - Hojun You, Chongam Kim:
High-order multi-dimensional limiting strategy with subcell resolution I. Two-dimensional mixed meshes. 1005-1032 - Navid Shervani-Tabar, Oleg V. Vasilyev:
Stabilized conservative level set method. 1033-1044 - Kai Leong Chong, Guangyu Ding, Ke-Qing Xia:
Multiple-resolution scheme in finite-volume code for active or passive scalar turbulence. 1045-1058 - Rakesh Kumar, Praveen Chandrashekar:
Simple smoothness indicator and multi-level adaptive order WENO scheme for hyperbolic conservation laws. 1059-1090 - Mohsen Esmaeilbeigi, Omid Chatrabgoun, Meysam Cheraghi:
Fractional Hermite interpolation using RBFs in high dimensions over irregular domains with application. 1091-1120 - Jemma Shipton, Thomas H. Gibson, Colin J. Cotter:
Higher-order compatible finite element schemes for the nonlinear rotating shallow water equations on the sphere. 1121-1137 - Ido Cohen, Guy Gilboa:
Energy dissipating flows for solving nonlinear eigenpair problems. 1138-1158 - Gaddiel Ouaknin, Nabil Laachi, Kris T. Delaney, Glenn H. Fredrickson, Frédéric Gibou:
Level-set strategy for inverse DSA-lithography. 1159-1178 - Matthieu Maunoury, Christophe Besse, Vincent Mouysset, Sébastien Pernet, Pol-André Haas:
Well-suited and adaptive post-processing for the visualization of hp simulation results. 1179-1204 - Nandan Gokhale, Nikos Nikiforakis, Rupert Klein:
A dimensionally split Cartesian cut cell method for the compressible Navier-Stokes equations. 1205-1219 - J. M. Nunez Rattia, James R. Percival, S. J. Neethling, M. D. Piggott:
Modelling local scour near structures with combined mesh movement and mesh optimisation. 1220-1237 - Dinshaw S. Balsara, Jiequan Li, Gino I. Montecinos:
An efficient, second order accurate, universal generalized Riemann problem solver based on the HLLI Riemann solver. 1238-1269 - Luis L. Bonilla, Ana Carpio, Manuel Carretero, Gema Duro, Mihaela Negreanu, Filippo Terragni:
A convergent numerical scheme for integrodifferential kinetic models of angiogenesis. 1270-1294 - Natalie N. Beams, Andreas Klöckner, Luke N. Olson:
High-order finite element-integral equation coupling on embedded meshes. 1295-1313 - Quentin Carmouze, François Fraysse, Richard Saurel, Boniface Nkonga:
Coupling rigid bodies motion with single phase and two-phase compressible flows on unstructured meshes. 1314-1338 - Justin A. Sirignano, Konstantinos Spiliopoulos:
DGM: A deep learning algorithm for solving partial differential equations. 1339-1364 - Kyle Gerard Felker, James M. Stone:
A fourth-order accurate finite volume method for ideal MHD via upwind constrained transport. 1365-1400 - Christopher Lester, Christian A. Yates, Ruth E. Baker:
Robustly simulating biochemical reaction kinetics using multi-level Monte Carlo approaches. 1401-1423 - Ayaboe K. Edoh, Nathan L. Mundis, Charles L. Merkle, Ann R. Karagozian, Venkateswaran Sankaran:
Comparison of artificial-dissipation and solution-filtering stabilization schemes for time-accurate simulations. 1424-1450 - Vladimir A. Gordin, Evgenii Tsymbalov:
Compact difference scheme for parabolic and Schrödinger-type equations with variable coefficients. 1451-1468 - Yashar Mehmani, Hamdi A. Tchelepi:
Multiscale computation of pore-scale fluid dynamics: Single-phase flow. 1469-1487
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