Astronomy and Astrophysics – Astrophysics
Scientific paper
2001-02-15
MNRAS Vol 322 (2002), 144
Astronomy and Astrophysics
Astrophysics
12 pages, 10 figures, accepted for publication in MNRAS. Expanded discussion in section 5, more tests of the code, and other m
Scientific paper
10.1046/j.1365-8711.2002.05282.x
Relativistic shocks accelerate particles by the first order Fermi mechanism. These particles then emit synchrotron emission in the post shock gas. We have developed a numerical code which integrates the relativistic Euler equations for fluid dynamics with a general equation of state, together with the Liouville equation for the accelerated particles. We present tests of this code and, in addition, we use it to study the gamma ray burst afterglow predicted by the fireball model, along with the hydrodynamics of a relativistic blastwave. We find that, while, broadly speaking, the behaviour of the emission is similar to that already predicted with semi-analytic approaches, the detailed behaviour is somewhat different. The ``breaks'' in the synchrotron spectrum behave differently with time, and the spectrum above the final break is harder than previously expected. These effects are due to the incorporation of the geometry of the (spherical) blastwave, along with relativistic beaming and adiabatic cooling of the energetic particles leading to a mix, in the observed spectrum, between recently injected "uncooled" particles and the older "cooled" population in different parts of the evolving, inhomogeneous flow.
Downes Thomas Patrick
Duffy Peter
Komissarov Serguei S.
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