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1.Geoffroy CHAUSSONNET, Loïc MÉÈSorcid_16x16.png, Miloš ŠORMAZ, Patrick JENNY, Philppe M. BARDET (2022).
Modeling multiple scattering transient of an ultrashort laser pulse by spherical particles
J. Comput. Phys. 457, 110696 (23 pages). doi:10.1016/ doi.ico hal.ico openalex-16x16.png
2.Jan Tobias HORSTMANN, Hatem TOUIL, Lucien VIENNE, Denis RICOT, Emmanuel LÉVÊQUEorcid_16x16.png (2022).
Consistent time-step optimization in the lattice Boltzmann method
J. Comput. Phys. 462, 111224 (14 pages). doi:10.1016/ doi.ico hal.ico openalex-16x16.png
3.Marion CAPUANO, Christophe BOGEYorcid_16x16.png, Peter D.M. SPELTorcid_16x16.png (2018).
Simulations of viscous and compressible gas-gas flows using high-order finite difference schemes
J. Comput. Phys. 361, 56–81. doi:10.1016/ doi.ico hal.ico openalex-16x16.png
4.Zlatko SOLOMENKO, Peter D.M. SPELTorcid_16x16.png, Pascal ALIX (2017).
A level-set method for large-scale simulations of three-dimensional flows with moving contact lines
J. Comput. Phys. 348, 151–170. doi:10.1016/ doi.ico hal.ico openalex-16x16.png
5.Jan Tobias HORSTMANN, Thomas LE GARREC, Daniel Ciprian MINCU, Emmanuel LÉVÊQUEorcid_16x16.png (2017).
Hybrid simulation combining two space-time discretization of the discrete-velocity Boltzmann equation
J. Comput. Phys. 349, 399–414. doi:10.1016/ doi.ico hal.ico openalex-16x16.png
6.Vladimir A. SABELNIKOV, Andrey OVSYANNIKOV, Mikhael GOROKHOVSKIorcid_16x16.png (2014).
Modified level set equation and its numerical assessment
J. Comput. Phys. 278, 1–30. doi:10.1016/ doi.ico hal.ico openalex-16x16.png
7.Jorge MORALES, Matthieu LEROY, Wouter J. T. BOSorcid_16x16.png, Kai SCHNEIDERorcid_16x16.png (2014).
Simulation of confined magnetohydrodynamic flows with Dirichlet boundary conditions using a pseudo-spectral method with volume penalization
J. Comput. Phys. 274, 64–94. doi:10.1016/ doi.ico hal.ico openalex-16x16.png
8.Didier DRAGNAorcid_16x16.png, Christophe BOGEYorcid_16x16.png, Maarten C. J. HORNIKX, Philippe BLANC-BENONorcid_16x16.png (2013).
Analysis of the dissipation and dispersion properties of the multi-domain Chebyshev pseudospectral method
J. Comput. Phys. 255, 31–47. doi:10.1016/ doi.ico hal.ico openalex-16x16.png
9.Yi SUI, Peter D.M. SPELTorcid_16x16.png (2013).
An efficient computational model for macroscale simulations of moving contact lines
J. Comput. Phys. 242, 37–52. doi:10.1016/ doi.ico hal.ico openalex-16x16.png
10.Gilles SERRE, Philippe LAFON, Xavier GLOERFELT, Christophe BAILLYorcid_16x16.png (2012).
Reliable reduced-order models for time-dependent linearized Euler equations
J. Comput. Phys. 15, 5176–5194. doi:10.1016/ doi.ico openalex-16x16.png
11.Lionel LE PENVENorcid_16x16.png, Marc BUFFAT (2012).
On the spectral accuracy of a fictitious domain method for elliptic operators in multi-dimensions
J. Comput. Phys. 231, 7893–7906. doi:10.1016/ doi.ico openalex-16x16.png
12.Marc BUFFAT, Lionel LE PENVENorcid_16x16.png (2011).
A spectral fictitious domain method with internal forcing for solving elliptic PDEs
J. Comput. Phys. 230, 2433–2450. doi:10.1016/ doi.ico openalex-16x16.png
13.Christophe BOGEYorcid_16x16.png, Nicolas DE CACQUERAY, Christophe BAILLYorcid_16x16.png (2011).
Finite differences for coarse azimuthal discretization and for reduction of effective resolution near origin of cylindrical flow equations
J. Comput. Phys. 230, 1134–1146. doi:10.1016/ doi.ico openalex-16x16.png
14.Denis RICOT, Simon MARIÉ, Pierre SAGAUT, Christophe BAILLYorcid_16x16.png (2009).
Lattice Boltzmann method with selective viscosity filter
J. Comput. Phys. 228, 4478–4490. doi:10.1016/ doi.ico openalex-16x16.png
15.Christophe BOGEYorcid_16x16.png, Nicolas DE CACQUERAY, Christophe BAILLYorcid_16x16.png (2009).
A shock-capturing methodology based on adaptative spatial filtering for high-order non-linear computations
J. Comput. Phys. 228, 1447–1465. doi:10.1016/ doi.ico openalex-16x16.png
16.Julien BERLAND, Christophe BOGEYorcid_16x16.png, Christophe BAILLYorcid_16x16.png (2008).
A study of differentiation errors in large-eddy simulations based on EDQNM theory
J. Comput. Phys. 227, 8314–8340. doi:10.1016/ doi.ico openalex-16x16.png
17.Anne CADIOUorcid_16x16.png, Lionel LE PENVENorcid_16x16.png, Marc BUFFAT (2008).
Asymptotic and numerical analysis of an inviscid bounded vortex flow at low Mach number
J. Comput. Phys. 227, 8268–8289. doi:10.1016/ doi.ico openalex-16x16.png
18.Julien BERLAND, Christophe BOGEYorcid_16x16.png, Olivier MARSDEN, Christophe BAILLYorcid_16x16.png (2007).
High-order, low dispersive and low dissipative explicit schemes for multiple-scale and boundary problems
J. Comput. Phys. 224, 637–662. doi:10.1016/ doi.ico openalex-16x16.png
19.Christophe BOGEYorcid_16x16.png, Christophe BAILLYorcid_16x16.png (2007).
On the application of explicit spatial filtering to the variables or fluxes of linear equations
J. Comput. Phys. 225, 1211–1217. doi:10.1016/ doi.ico openalex-16x16.png
20.Christophe BOGEYorcid_16x16.png, Christophe BAILLYorcid_16x16.png (2004).
A family of low dispersive and low dissipative explicit schemes for flow and noise computations.
J. Comput. Phys. 194, 194–214.
21.G. BRUN, Jean-Marc HERARD, Denis JEANDEL, M. UHLMANN (1999).
An approximate Riemann solver for second-moment closures.
J. Comput. Phys. 151, 990–996.
22.M.H. KRANE, W.R. PAULEY (1995).
Estimation of the direct acoustic radiation from transitional boundary layer structures using velocity measurements.
J. Comput. Phys. 181, 737–763.
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