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相关论文: COSMOCR: A Numerical Code for Cosmic Ray Studies i…

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A cosmological hydrodynamic code is described, which includes a routine to compute cosmic ray acceleration and transport in a simplified way. The routine was designed to follow explicitly diffusive acceleration at shocks, and second-order…

天体物理学 · 物理学 2007-05-23 Dongsu Ryu , Francesco Miniati , Tom W. Jones , Hyesung Kang

A numerical scheme that incorporates a thermal leakage injection model into a combined gas dynamics and cosmic ray (CR, hereafter) diffusion-convection code has been developed. The particle injection is followed numerically by filtering the…

天体物理学 · 物理学 2009-11-07 Hyesung Kang , T. W. Jones , U. D. J. Gieseler

We have developed a cosmic ray (CR) shock code in one dimensional spherical geometry with which the particle distribution, the gas flow and their nonlinear interaction can be followed numerically in a frame comoving with an expanding shock.…

天体物理学 · 物理学 2009-11-11 Hyesung Kang , T. W. Jones

Aims: morpholgies, number and energy distributions of Cosmological Shock Waves from a set of ENZO cosmological simulations are produced, along with a study of the connection with Cosmic Rays processes in different environments. Method: we…

天体物理学 · 物理学 2008-05-29 F. Vazza , G. Brunetti , C. Gheller

Cosmic rays (CRs) are known to play a key role in many astrophysical environments: they can modify shock dynamics, influence the thermochemistry and the ionization of the interstellar medium, regulate galaxy mass content by driving galactic…

高能天体物理现象 · 物理学 2026-02-25 Nimatou-Seydi Diallo , Yohan Dubois , Alexandre Marcowith , Joki Rosdahl , Benoît Commerçon

We present a numerical scheme, implemented in the cosmological adaptive mesh refinement code ENZO, to model the injection of Cosmic Ray (CR) particles at shocks, their advection and their dynamical feedback on thermal baryonic gas. We give…

宇宙学与河外天体物理 · 物理学 2015-06-03 F. Vazza , M. Bruggen , C. Gheller , G. Brunetti

Non-thermal (relativistic) particles are injected into the cosmos by structure formation shock waves, active galactic nuclei and stellar explosions. We present a suite of unigrid cosmological simulations (up to $2048^3$) using a two-fluid…

宇宙学与河外天体物理 · 物理学 2014-03-05 Franco Vazza , Claudio Gheller , Marcus Brüggen

Cosmological hydrodynamic simulations of large scale structure in the universe have shown that accretion shocks and merger shocks form due to flow motions associated with the gravitational collapse of nonlinear structures. Estimated speed…

天体物理学 · 物理学 2015-06-24 Hyesung Kang , T. W. Jones

Cosmic ray electron (CRE) acceleration and cooling are important physical processes in astrophysics. We develop an approximative framework to treat CRE physics in the parallel smoothed particle hydrodynamics code Gadget-3. In our…

高能天体物理现象 · 物理学 2019-12-03 Dongchao Zheng , Weitian Li , Zhenghao Zhu , Chenxi Shan , Jiajun Zhang , Linfeng Xiao , Xiaoli Lian , Dan Hu

Context. The diffusive shock acceleration mechanism has been widely accepted as the acceleration mechanism for galactic cosmic rays. While self-consistent hybrid simulations have shown how power-law spectra are produced, detailed…

高能天体物理现象 · 物理学 2015-06-04 M. Wolff , R. C. Tautz

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…

天体物理学 · 物理学 2017-01-18 Hyesung Kang

We have developed a novel computer code designed to follow the evolution of cosmic-ray modified shocks, including the full momentum dependence of the particles for a realistic diffusion coefficient model. In this form the problem is…

天体物理学 · 物理学 2009-10-31 Hyesung Kang , T. W. Jones , R. J. LeVeque , K. M. Shyue

We study the generation and distribution of high energy electrons in cosmic environment and their observational consequences by carrying out the first cosmological simulation that includes directly cosmic ray (CR) particles. Starting from…

天体物理学 · 物理学 2009-11-07 Francesco Miniati , T. W. Jones , Hyesung Kang , Dongsu Ryu

Cosmic rays are nowadays a crucial tool to study the astrophysics of extreme objects in the Universe, the cosmic environmental plasma (both Galactic and extra-galactic), the physics of nuclear interactions or the properties of elementary…

高能天体物理现象 · 物理学 2022-02-16 Pedro de la Torre Luque

We present a new energy transport code that models the time dependent and non-linear evolution of spectra of cosmic-ray nuclei, their secondaries, and photon target fields. The software can inject an arbitrary chemical composition including…

We discuss new methods to integrate the cosmic ray (CR) evolution equations coupled to magneto-hydrodynamics (MHD) on an unstructured moving mesh, as realised in the massively parallel AREPO code for cosmological simulations. We account for…

星系天体物理 · 物理学 2017-01-11 C. Pfrommer , R. Pakmor , K. Schaal , C. M. Simpson , V. Springel

Numerical modeling of galactic cosmic rays (GCRs) penetration through the heliosphere to the vicinity of the Sun is considered. Galactic cosmic rays are charged particles with energies exceeding 10 MeV/nucl., originating from far beyond the…

高能天体物理现象 · 物理学 2025-09-04 D. A. Shestakov , V. V. Izmodenov

Research in many areas of modern physics and astrophysics such as, e.g., indirect searches for dark matter (DM), particle acceleration in SNR shocks, and the spectrum and origin of extragalactic gamma-ray background, rely heavily on studies…

高能天体物理现象 · 物理学 2015-03-19 Igor V. Moskalenko

Radiative transfer simulations are now at the forefront of numerical astrophysics. They are becoming crucial for an increasing number of astrophysical and cosmological problems; at the same time their computational cost has come to the…

Numerical solutions of the cosmic-ray (CR) magneto-hydrodynamic equations are dogged by a powerful numerical instability, which arises from the constraint that CRs can only stream down their gradient. The standard cure is to regularize by…

高能天体物理现象 · 物理学 2018-03-16 Yan-Fei Jiang , Peng Oh
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