Govender, GabrielBrassel, Byron P.Maharaj, Sunil D.2024-08-142024-08-142015-07-11Govender, G., Brassel, B.P. and Maharaj, S.D. 2015. The effect of a two-fluid atmosphere on relativistic stars. European Physical Journal C. 75(7): 1-13. doi:10.1140/epjc/s10052-015-3548-91434-60441434-6052 (Online)isidoc: CS2NMhttps://hdl.handle.net/10321/54063We model the physical behaviour at the surface of a relativistic radiating star in the strong gravity limit. The spacetime in the interior is taken to be spherically symmetrical and shear-free. The heat conduction in the interior of the star is governed by the geodesic motion of fluid particles and a nonvanishing radially directed heat flux. The local atmosphere in the exterior region is a two-component system consisting of standard pressureless (null) radiation and an additional null fluid with nonzero pressure and constant energy density. We analyse the generalised junction condition for the matter and gravitational variables on the stellar surface and generate an exact solution. We investigate the effect of the exterior energy density on the temporal evolution of the radiating fluid pressure, luminosty, gravitational redshift and mass flow at the boundary of the star. The influence of the density on the rate of gravitational collapse is also probed and the strong, dominant and weak energy conditions are also tested. We show that the presence of the additional null fluid has a significant effect on the dynamical evolution of the star.13 pengr-qcgr-qc0202 Atomic, Molecular, Nuclear, Particle and Plasma Physics0206 Quantum PhysicsNuclear & Particles Physics5101 Astronomical sciences5102 Atomic, molecular and optical physics5107 Particle and high energy physicsThe effect of a two-fluid atmosphere on relativistic starsArticle2024-08-1410.1140/epjc/s10052-015-3548-9