关注
Victor E. Ambrus
标题
引用次数
引用次数
年份
Rotating quantum states
VE Ambruş, E Winstanley
Physics Letters B 734, 296-301, 2014
702014
Rotating fermions inside a cylindrical boundary
VE Ambruş, E Winstanley
Physical Review D 93 (10), 104014, 2016
692016
High-order thermal lattice Boltzmann models derived by means of Gauss quadrature in the spherical coordinate system
VE Ambruş, V Sofonea
Physical Review E 86 (1), 016708, 2012
452012
Lattice Boltzmann models based on half-range Gauss–Hermite quadratures
VE Ambruş, V Sofonea
Journal of Computational Physics 316, 760-788, 2016
432016
Development of transverse flow at small and large opacities in conformal kinetic theory
VE Ambruş, S Schlichting, C Werthmann
Physical Review D 105 (1), 014031, 2022
352022
High-order quadrature-based lattice Boltzmann models for the flow of ultrarelativistic rarefied gases
VE Ambruş, R Blaga
Physical Review C 98 (3), 035201, 2018
322018
Helical massive fermions under rotation
VE Ambruş
Journal of High Energy Physics 2020 (8), 1-68, 2020
282020
Application of mixed quadrature lattice Boltzmann models for the simulation of Poiseuille flow at non-negligible values of the Knudsen number
VE Ambruş, V Sofonea
Journal of Computational Science 17, 403-417, 2016
282016
Establishing the range of applicability of hydrodynamics in high-energy collisions
VE Ambruş, S Schlichting, C Werthmann
Physical Review Letters 130 (15), 152301, 2023
272023
Implementation of diffuse-reflection boundary conditions using lattice Boltzmann models based on half-space Gauss-Laguerre quadratures
VE Ambruş, V Sofonea
Physical Review E 89 (4), 041301, 2014
252014
Vortical effects in Dirac fluids with vector, chiral and helical charges
VE Ambrus, MN Chernodub
The European Physical Journal C 83, 111, 2023
23*2023
Inverse-Reynolds-dominance approach to transient fluid dynamics
D Wagner, A Palermo, VE Ambruş
Physical Review D 106 (1), 016013, 2022
212022
Hyperon–anti-hyperon polarization asymmetry in relativistic heavy-ion collisions as an interplay between chiral and helical vortical effects
VE Ambru, MN Chernodub
The European Physical Journal C 82 (1), 61, 2022
212022
Corner-transport-upwind lattice Boltzmann model for bubble cavitation
V Sofonea, T Biciuşcă, S Busuioc, VE Ambruş, G Gonnella, A Lamura
Physical Review E 97 (2), 023309, 2018
202018
Bjorken flow attractors with transverse dynamics
VE Ambruş, S Busuioc, JA Fotakis, K Gallmeister, C Greiner
Physical Review D 104 (9), 094022, 2021
192021
Comparison of the Shakhov and ellipsoidal models for the Boltzmann equation and DSMC for ab initio-based particle interactions
VE Ambruş, F Sharipov, V Sofonea
Computers & Fluids 211, 104637, 2020
182020
Renormalised fermion vacuum expectation values on anti-de Sitter space–time
VE Ambruș, E Winstanley
Physics Letters B 749, 597-602, 2015
182015
Transport coefficients in ultrarelativistic kinetic theory
VE Ambruş
Physical Review C 97 (2), 024914, 2018
172018
Gauss quadratures–the keystone of lattice Boltzmann models
B Piaud, S Blanco, R Fournier, VE AMBRUŞ, V Sofonea
International Journal of Modern Physics C 25 (01), 1340016, 2014
172014
Half-range lattice Boltzmann models for the simulation of Couette flow using the Shakhov collision term
VE Ambruş, V Sofonea
Physical Review E 98 (6), 063311, 2018
162018
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