Courses
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Courses |
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| The Courses – Each student will have to follow
180 hours of courses during the three years of the Ph.D. program. There is
also the possibility to follow courses from the other Physics, Mathematics,
Astronomy and Astrophysics Ph.D. programs in each participating institution,
after approval by the faculty. Courses can be chosen from the following
list: Ultra high energy gamma ray sources (F. Aharonian); The approach to the singularity (V. Belinski); Relativistic effects in GRBs (C.L. Bianco); Accretions on black holes and neutrons stars (S. Chakrabarti); Particle physics applied to astrophysics (P. Chardonnet); Exobiology (S. Chakrabarti); General relativity (T. Damour); Large scale structure of the universe (J. Einasto); Signal treatment (A. Ferrari); X-Rays and gamma rays astronomy (F. Frontera); X-Rays clusters (R. Giacconi); Planetology (T. Guillot and A. Morbidelli); Formation of galaxies (Y. Jing); On the Kerr solution (R. Kerr); Relativistic field theory (H. Kleinert); Development on BKL work (H. Nicolai); Non singular cosmology (M. Novello); Extragalatic astrophysics (J. Pacheco); Gravitational waves (T. Regimbau); Singularities and general relativity (K. Rosquist); Black holes and fundamental physics (R. Ruffini); Thermalization and collective effects (G. Vereshchagin); Gravitational waves (J.Y. Vinet); Ultra relativistic electron positron plasma (S.S. Xue) |