Part 1 - compact objects: basics of general relativity; relativistic magneto-hydrodynamics; winds, shocks and accretion; explosions; relativistic stars; structure and electrodynamics of neutron stars; pulsars; magnetars; gamma-ray bursts; relativistic winds and synchrotron nebulae. Part 2 - astroparticle physics: phenomenology of cosmic rays (CRs): CRs and Supernova Remnants. CRs and magnetic field: wave-particle interactions, diffusive propagation. Galactic transport. Particle acceleration.
Lecture Notes will be provided via the Moodle e-learning platform
Learning Objectives
The course is aimed at providing the needed theoretical basis for the study of high energy astrophysics phenomena (supernova events, gamma-ray bursts, neutron stars, black holes, cosmic rays). Basic notions of general relativity, relativistic hydrodynamics and magneto-hydrodynamics, and non-thermal radiation processes are recalled. The course is recommended for students who are interested in studying in deeper the subjects that are treated in Relativistic Astrophysics and Astrophysical Plasmas. The course is suitable also for students who are interested in theoretical physics and nuclear/subnuclear physics, and for PhD students.
Prerequisites
The class is recomended for students that already attended "Astrofisica Relativistica", it can be taken also by students of the theoretical and nuclear-subnuclear physics curricula, and by PhD students.