International Journals


  1. S.Busuioc, V.E.Ambrus
    Lattice Boltzmann models based on the vielbein formalism for the simulation of flows in curvilinear geometries
    Phys. Rev. E 99 (2019) 033304 (preprint at arXiv:1708.05944 [physics.flu-dyn]).
  2. V.E.Ambrus, E. Winstanley
    Quantum corrections in thermal states of fermions on anti-de Sitter space-time
    AIP Conf. Proc. 1916 (2017) 020005 (preprint at arXiv:1708.03148 [hep-th]).
  3. V.E.Ambrus
    Study of transport coefficients in ultrarelativistic kinetic theory
    Phys. Rev. C 97 (2018) 024914 (preprint at arXiv:1706.05310 [physics.flu-dyn]).
  4. V.E.Ambrus
    Quantum non-equilibrium effects in rigidly-rotating thermal states
    Phys. Lett. B 771 (2017) 151. (preprint at arXiv:1704.02933 [hep-th]).
  5. V.E.Ambrus, E.Winstanley
    Thermal expectation values of fermions on anti-de Sitter space-time
    Classical Quant. Grav. 34 (2017) 145010 (preprint at arXiv:1704.00614 [hep-th]).
  6. V.E.Ambrus, R.Blaga
    High-order quadrature-based lattice Boltzmann models for the flow of ultrarelativistic rarefied gases
    Phys. Rev. C 98 (2018) 035201 (preprint at arXiv:1612.01287 [physics.flu-dyn]).
  7. R.Blaga, V.E.Ambrus
    Quadrature-based Lattice Boltzmann Model for Relativistic Flows
    AIP Conf. Proc. 1796 (2017) 020010 (preprint at arXiv:1608.03004 [physics.flu-dyn]).
  8. V.E.Ambrus
    Anderson-Witting transport coefficients for flows in general relativity
    AIP Conf. Proc. 1796 (2017) 020006 (preprint at arXiv:1608.01400 [astro-ph.HE]).

  9. V.E.Ambrus, I.I.Cotaescu
    Maxwell-Juttner distribution for rigidly-rotating flows in spherically symmetric spacetimes using the tetrad formalism
    Phys. Rev. D 94 (2016) 085022 (preprint at arXiv:1605.07043 [hep-th]).
  10. V.E.Ambrus, R.Blaga
    Relativistic rotating Boltzmann gas using the tetrad formalism
    Annals of the West University of Timisoara - Physics 58 (2015) 89.

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