Astrophysics and Cosmology

Friedmann's cosmological model. Friedmann equations. Energy components. Baryonic matter and dark matter. Cosmological constant. Deceleration parameter. Age of the universe. Angular distance and luminosity distance in cosmology. Hubble law. Measurement of the Hubble constant. Standard candles and standard sirens. Evidence for dark energy through measurements of SN-Ia luminosity distances. Current accelerating universe: theoretical models and problems. Primordial universe and relativistic components. Cosmic background radiation (CMB) and its black body spectrum. Estimation of the energy component in neutrinos through CMB measurements. Primordial nucleosynthesis and abundance of light elements. Estimation of the number of neutrino families by primordial nucleosynthesis. Energy component in massive neutrinos. Limits on neutrino mass from cosmological observations. Structure formation on cosmological scales.Jeans lenght. Temporal evolution of perturbations in linear regime for baryonic and obscure components. The problems of the standard model and the inflationary paradigm. Inflationary models. Primordial spectrum of inflationary fluctuations. Power spectrum of the fluctuations and comparison with current data. Anisotropy of cosmic background radiation and its formation mechanisms. Angular spectrum of anisotropic fluctuations and dependence on cosmological parameters. Polarization of CMB, scalar and tensor modes. Stochastic gravitational wave background and its possible determination. Future prospects.

Classical mechanics. Electromagnetism. Special relativity. Non-relativistic quantum mechanics.

- Introduction to Cosmology (second edition). Barbara Ryden. Cambridge University press. - Modern Cosmology. Scott Dodelson. Academic Press. - Structure Formation in the Universe. T. Padmanabhan, University of Cambridge. - Cosmology. Nicola Vittorio. CRC press.

The lectures will be two hours each and will take place twice a week. In the first part of the lecture a brief summary of the previous lessons will take place. The last ten minutes will be dedicated to possible questions and in-depth analysis. All lectures will then be made available in .pdf format on the teacher's website.

It is not mandatory to attend all the lectures in order to sustain the final exam.

The exam is oral only and is divided into two parts. In the first part the student presents a topic of his choice taken from the program. In the second one, questions will be asked about the rest of the program.

The lectures will be two hours each and will take place twice a week. In the first part of the lecture a brief summary of the previous lessons will take place. The last ten minutes will be dedicated to possible questions and in-depth analysis. All lectures will then be made available in .pdf format on the teacher's website.