Acceleration of cosmic rays at cosmic shocks

Nonthermal particles can be produced due to incomplete thermalization at collisionless shocks and further accelerated to very high energies via diffusive shock acceleration. In a previous study we explored the cosmic ray (CR) acceleration at cosmic shocks through numerical simulations of CR modified, quasi-parallel shocks in 1D plane-parallel geometry with the physical parameters relevant for the shocks emerging in the large scale structure formation of the universe (Kang & Jones 2002). In order to consider the CR acceleration at shocks with a broader range of physical properties, in this contribution we present additional simulations. For a given Mach number, shocks with higher speeds accelerate CRs faster with a greater number of particles. However, two shocks with a same Mach number but with different shock speeds evolve qualitatively similarly when the results are presented in terms of diffusion length and time scales. Therefore, the time asymptotic value for the fraction of shock kinetic energy transferred to CRs is mainly controlled by shock Mach number rather than shock speed. We present the ``CR energy ratio'' for a wide range of shock parameters and for

\epsilon=0.2-0.3

at terminal time of our simulations. We suggest that these values can be considered as time-asymptotic values for the CR acceleration efficiency, since the time-dependent evolution of CR modified shocks has become approximately self-similar before the terminal time.

References(2)

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Hot gas in the cdm scenario: x-ray clusters from a high resolution numerical simulation

Hye-sung Kang
(
- Princeton U. Observ.
)
,
Renyue Cen
,
Ren-yue Cen
(
- Princeton U. Observ.
)
,
Jeremiah P. Ostriker
(
- Princeton U. Observ.
)
,
Jeremiah P. Ostriker

et al.

- Astrophys.J. 428 (1994) 1
•
e-Print:
- astro-ph/9404013
•
DOI:
- 10.1086/174213

- Adv.Space Res. 21 551