Journal of Computational Physics

Also known as: J. Comput. Phys., JCTPAH
Official website

2023

A multigrid solver for the coupled pressure-temperature equations in an all-Mach solver with VoF[arΧiv]
Y. Saade, D. Lohse, and D. Fuster
J. Comput. Phys. 476, 111865 (2023)BibTeΧ

2022

A fast computational model for the electrophysiology of the whole human heart[arΧiv]
G. Del Corso, R. Verzicco, and F. Viola
J. Comput. Phys. 457, 111084 (2022)BibTeΧ

2021

An efficient phase-field method for turbulent multiphase flows[arΧiv]
H. Liu, C.S. Ng, K.L. Chong, D. Lohse, and R. Verzicco
J. Comput. Phys. 446, 110659 (2021)BibTeΧ
A fully Eulerian solver for the simulation of multiphase flows with solid bodies: Application to surface gravity waves[arΧiv]
F. De Vita, F. De Lillo, R. Verzicco, and M. Onorato
J. Comput. Phys. 438, 110355 (2021)BibTeΧ
A finite-difference scheme for three-dimensional incompressible flows in spherical coordinates[arΧiv]
L. Santelli, P. Orlandi, and R. Verzicco
J. Comput. Phys. 424, 109848 (2021)BibTeΧ

2018

A fast moving least squares approximation with adaptive Lagrangian mesh refinement for large scale immersed boundary simulations[Open Access]
V. Spandan, D. Lohse, M. de Tullio, and R. Verzicco
J. Comput. Phys. 375, 228 – 239 (2018)BibTeΧ

2017

A parallel interaction potential approach coupled with the immersed boundary method for fully resolved simulations of deformable interfaces and membranes[arΧiv]
V. Spandan, V. Meschini, R. Ostilla Mónico, D. Lohse, G. Querzoli, M. de Tullio, and R. Verzicco
J. Comput. Phys. 348, 567 – 590 (2017)BibTeΧ

2016

Resolved-particle simulation by the Physalis method: Enhancements and new capabilities
A. Sierakowski and A. Prosperetti
J. Comput. Phys. 309, 164 – 184 (2016)BibTeΧ

2015

A multiple-resolution strategy for Direct Numerical Simulation of scalar turbulence[arΧiv]
R. Ostilla Mónico, Y. Yang, E.P. van der Poel, D. Lohse, and R. Verzicco
J. Comput. Phys. 301, 308 – 321 (2015)BibTeΧ

2013

Improved procedure for the computation of Lamb’s coefficients in the physalis method for particle simulation[arΧiv]
K. Guðmundsson and A. Prosperetti
J. Comput. Phys. 234, 44–59 (2013)BibTeΧ

2012

A level set method for vapor bubble dynamics
E. Can and A. Prosperetti
J. Comput. Phys. 231, 1533–1552 (2012)BibTeΧ

2006

A second-order boundary-fitted projection method for free-surface flow computations
B. Yang and A. Prosperetti
J. Comput. Phys. 213, 574–590 (2006)BibTeΧ
On the computation of ensemble averages for spatially non-uniform particle systems
Q. Zhang, K. Ichiki, and A. Prosperetti
J. Comput. Phys. 212, 247–267 (2006)BibTeΧ

2005

A second-order method for three-dimensional particle simulation
Z. Zhang and A. Prosperetti
J. Comput. Phys. 210, 292 – 324 (2005)BibTeΧ

2004

A numerical method for three-dimensional gas–liquid flow computations
Y. Hao and A. Prosperetti
J. Comput. Phys. 196, 126 – 144 (2004)BibTeΧ

2001

Physalis: A New o(N) Method for the Numerical Simulation of Disperse Systems: Potential Flow of Spheres
A. Prosperetti and H.N. Og̃uz
J. Comput. Phys. 167, 196–216 (2001)BibTeΧ

Yearly breakdown

2023 1
 
2022 1
 
2021 3
 
2018 1
 
2017 1
 
2016 1
 
2015 1
 
2013 1
 
2012 1
 
2006 2
 
2005 1
 
2004 1
 
2001 1
 
Total: 16