Cosmic Bullets as Particle Accelerators and Radio Sources
Abstract
We have simulated in two dimensions the dynamical evolution of dense gas clouds(`cosmic bullets') moving supersonically through a uniform low-density medium. The diffusive shock acceleration of relativistic protons (cosmic rays) and their dynamical feedback on the background flow are included by the two-fluid model for this process. The acceleration of relativistic electrons is approximated by a test-particle model, and a passive magnetic field is followed by a simple advection scheme. Strong bow shocks, with Mach numbers similar to that of a bullet's motion, are the most important particle accelerators in the flow, while tail shocks and shocks inside the bullets do not play generally significant roles in this regard. For our simulation parameters, approximately greater than 10% of the initial bullet kinetic energy is converted to a combination of internal energy of gas and cosmic-ray protons by the time the bullets begin to be disrupted. Characteristically, the cosmic rays gain several percent of the available kinetic energy. Bullet destruction on timescales only a little larger than the ram pressure bullet crushing time begins in response to Kelvin-Helmholtz and especially to Rayleigh-Taylor instabilities along the forward bullet surface. For dense bullets this happens before the bullet is stopped by ram pressure. According to our simple model for synchrotron emission from relativistic electrons accelerated and transported within the flows, that emission increases rapidly as the bullet begins to fragment, when it is strongly dominated by field enhancement in sheared flows. Synchrotron emission from the acceleration region within the bow shock is, by contrast, much weaker.
- Publication:
-
The Astrophysical Journal
- Pub Date:
- September 1994
- DOI:
- 10.1086/174560
- Bibcode:
- 1994ApJ...432..194J
- Keywords:
-
- Astronomical Models;
- Cosmic Rays;
- Gas Dynamics;
- Hydrodynamics;
- Mathematical Models;
- Particle Acceleration;
- Radio Sources (Astronomy);
- Shock Waves;
- Synchrotron Radiation;
- Bow Waves;
- Computerized Simulation;
- Kelvin-Helmholtz Instability;
- Mach Number;
- Relativistic Particles;
- Supersonic Flow;
- Taylor Instability;
- Two Dimensional Models;
- Astrophysics;
- ACCELERATION OF PARTICLES;
- HYDRODYNAMICS;
- INSTABILITIES;
- ISM: COSMIC RAYS;
- SHOCK WAVES