PUMA publications for /user/mkuron/LatticeTue Feb 20 14:20:47 CET 2018Journal of Chemical Physicsjun244702Mesoscopic simulations of the counterion-induced electro-osmotic flow: {A} comparative study1302009Boltzmann dynamics flow lattice mesoscopic method; methods; molecular osmosis; simulation; slip systems; Tue Feb 20 14:20:47 CET 2018Simulation and theory of electrostatic interactions in solution104--113{P3M} and {PME}: {A} comparison of the two methods1999Brillouin Poisson approximations; constants; crystal electric electrostatics; equation lattice least potential; solutions; squares structure; thermodynamics; zones; Tue Feb 20 14:20:47 CET 2018{TEMPLE CIRCUS, TEMPLE WAY, BRISTOL BS1 6BE, ENGLAND}JOURNAL OF STATISTICAL MECHANICS-THEORY AND EXPERIMENTfebFrom creeping to inertial flow in porous media: a lattice Boltzmann-finite element study{Article}{2013}Boltzmann flow fluid in lattice media; methods} models; porous {discrete Tue Feb 20 14:20:47 CET 2018Computers \& Mathematics with Applicationsapr72374--2379Multiscale modelling strategy using the lattice Boltzmann method for polymer dynamics in a turbulent flow592010Boltzmann; Drag Lattice Polymer Turbulent dynamics; flow; reduction Polymer dynamics in a turbulent flow is a problem spanning several orders of magnitude in length and time scales. A microscopic simulation covering all those scales from the polymer segment to the inertial scale of turbulence remains improbable within the foreseeable future. We propose a multiscale simulation strategy to enhance the spatio-temporal resolution of the local Lagrangian turbulent flow by matching two different simulation techniques, i.e. direct numerical simulation for the flow as a whole, and the lattice Boltzmann method coupled to polymer dynamics at the Kolmogorov dissipation scale. Local turbulent flows sampled by Lagrangian tracer particles in the direct numerical simulation are reproduced in the lattice Boltzmann model with a finer resolution, by supplying the latter with both the correct initial condition as well as the correct time-dependent boundary condition, sampled from the former. When combined with a Molecular Dynamics simulation of a polymer chain in the lattice Boltzmann model, it provides a strategy to simulate the passive dynamics of a polymer chain in a turbulent flow covering all these scales. Although this approach allows for a fairly realistic model of the macromolecule, the back-coupling to the flow on the large scales is missing.Tue Feb 20 14:20:47 CET 2018Progress in Computational Fluid Dynamicscond-mat/0610034197On the effect of surfactant adsorption and viscosity change on apparent slip in hydrophobic microchannels82008Boltzmann Liquid-solid Wall and apparent interfaces, lattice slip slip, Tue Feb 20 14:20:47 CET 2018Journal of Chemical Physics8085102The effect of hydrodynamic interactions on the dynamics of {DNA} translocation through pores1282008Boltzmann DNA; biodiffusion; biophysics hydrodynamics; lattice methods; molecular Tue Feb 20 14:20:47 CET 2018Macromolecular Theory and Simulations4407--411Volumetric Changes of Randomly Crosslinked Model Networks162007dynamics, lattice models, molecular networks, polymer shrinkage volume Tue Feb 20 14:20:47 CET 2018Journal of Chemical Physics19194905Electrophoretic mobility reversal of polyampholytes induced by strong electric fields or confinement1382013Boltzmann confined dynamics electrohydrodynamics; electrophoresis; flow flow; lattice method methods; molecular simulation; Tue Feb 20 14:20:47 CET 2018Computer Physics Communications120--125Simulations of granular materials on different scales1272000Computer Computerized Granular Lattice Materials Molecular Particle Stochastic Theoretical collision; dynamics; materials; model; properties; science; simulation; study Tue Feb 20 14:20:47 CET 2018Institute for Computational Physics, University of Stuttgart, GermanyFlow in porous media and driven colloidal suspensions2008Boltzmann, Lattice colloidal crystal media, optical permeability, porous tweezer, Tue Feb 20 14:20:47 CET 2018Multifield Problems in Solid and Fluid Mechanis, Lecture Notes in Applied and Computational Mechanics 28, Springercond-mat/0606167Computer simulation of particle suspensions2006Boltzmann Particle dynamics, lattice method molecular rotation stochastic suspensions, Tue Feb 20 14:20:47 CET 2018Philosophical Transactions of the Royal Society of London Aaugdoi:10.1098/rsta.2005.1618, cs.DC/05010211895--1915Large-scale lattice Boltzmann simulations of complex fluids: advances through the advent of computational grids3632005Boltzmann, RealityGrid, complex computational computing, fluids grid gyroid lattice media, mesophase, porous steering, Tue Feb 20 14:20:47 CET 2018{THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND}COMPUTERS \& FLUIDSjul{SI}{184-189}Lattice Boltzmann simulations of anisotropic particles at liquid interfaces{Article}{80}{2013}Blue Boltzmann Domain Ellipsoid} Gene/P; Lattice Parallelization; colloidal decomposition; fluid; method; {Complex Tue Feb 20 14:20:47 CET 2018Physical Review Emarcond-mat/0601476, DOI:10.1103/PhysRevE.73.0315033031503Stress response and structural transitions in sheared gyroidal and lamellar amphiphilic mesophases: lattice-Boltzmann simulations732006Boltzmann Crystals, Gyroid Lattice Liquid Mesophase, Response, Shear, Stress Tue Feb 20 14:20:47 CET 2018Europhysics LettersDOI:10.1209/epl/i2005-10438-xcond-mat/0601295, doi:10.1209/epl/i2005-10438-x533--539Emergence of rheological properties in lattice Boltzmann simulations of gyroid mesophases732006Boltzmann, amphiphilic complex fluids, gyroid lattice mesophase, shear systems thinning, viscoelasticity, Tue Feb 20 14:20:47 CET 2018Journal of Chemical Physics146133--6142On finite-size effects in computer-simulations using the Ewald Potential1031995Molecular-dynamics, dielectric-properties, electrostatic enengy, free interactions, lattice particle polypeptides, proteins, solvated sums, systems, water, Tue Feb 20 14:20:47 CET 2018Berlin, GermanyAdvanced Computer Simulation Approaches for Soft Matter Sciences III89--166Advances in Polymer ScienceLattice Boltzmann Simulations of Soft Matter SystemsReview2212009Boltzmann; Boundary Brownian Chapman-Enskog; Colloidal Fluctuation-dissipation Force Hydrodynamic Lattice Polymer Soft conditions; coupling; dispersions; interactions; matter motion; screening; solutions; theorem; Tue Feb 20 14:20:47 CET 2018International Journal for Numerical Methods in Biomedical Engineering3-4471--487Computational model of whole blood exhibiting lateral platelet motion induced by red blood cells262010Boltzmann Boundary Immersed blood cell excess, lattice mechanics membrane method, methods, near platelet red wall Tue Feb 20 14:20:47 CET 2018Physica A1--6Phase Transitions in Granular Packings2251996Frustrated Gas Heap Lattice Percolation Simulations Slope Tail Theory Tue Feb 20 14:20:47 CET 2018Europhysics Letters591--597Segregation of granular mixtures in presence of compaction431998Ising Nonequilibrium and granular irreversible lattice materials; porous problems; processes statistics; theory thermodynamics; Tue Feb 20 14:20:47 CET 2018Journal of Chemical Physics8312--8326New splitting formulations for lattice summations1152001lattice optimisation polynomials; theory; Tue Feb 20 14:20:47 CET 2018Journal of Chemical Physics9094107Simulations of non-neutral slab systems with long-range electrostatic interactions in two-dimensional periodic boundary conditions1312009boundary-value dynamics electrostatics; energy; lattice method molecular problems; Tue Feb 20 14:20:47 CET 2018Journal of Chemical Physics3034109The optimal {P3M} algorithm for computing electrostatic energies in periodic systems1282008energy; lattice theory