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96388 - ADVANCED COSMOLOGY

Academic Year 2022/2023

                
                        Docente:
                        Federico Marulli
                    
                        Credits:
                        6
                    
                        SSD:
                        FIS/05
                    
                        Language:
                        English
                    
                        Teaching Mode:
                        Traditional lectures
                        
                            Campus:
                            Bologna
                        
                            Corso:
                            Second cycle degree programme (LM) in
                            Astrophysics and Cosmology (cod. 5828)

                            Teaching resources on Virtuale
                        
                                    Course Timetable
                                
from Sep 19, 2022 to Dec 07, 2022

Learning outcomes

This course is intended to present the current understanding of the main advanced topics in Cosmology. After completing the course, students will acquire a thorough and updated knowledge of modern cosmological frameworks, with particular focus on dark matter and dark energy models, and on all the main cosmological probes. Furthermore, they will learn the primary statistical methods of modern observational Cosmology.

Course contents

General Relativity
fields; space and time; curved spaces; basic equations; action; symmetries and interpretation; Newtonian limit; the field of a mass

Analysis and inference
Bayesian analysis; likelihood, prior and posterior functions; data analysis techniques; Fisher matrix; Monte Carlo Markov Chains; machine learning for Cosmology

The concordance cosmological model
the thermal history of the Universe; the cosmic web; dark components

The expanding Universe
expanding space; distances; evolution of energy; cosmic inventory

The fundamental equation of Cosmology
Einstein equations; Boltzmann equation; beyond the homogeneous Universe

The origin of species
Big Bang nucleosynthesis; recombination; dark matter

The inhomogeneous Universe
the Boltzmann equation for photons, cold dark matter, baryons and neutrinos; scalar-vector-tensor decomposition; the Einstein equations for scalar perturbations; tensor perturbations

Growth of structure: linear theory
large scales; small scales; the transfer function; the growth factor

Growth of structure: beyond linear theory
perturbation theory; simulations; dark matter haloes; the halo model

Probes of structure: tracers
statistics of galaxies, galaxy clusters and cosmic voids; angular and 3D clustering; bias; baryon acoustic oscillations; redshift-space distortions; geometric distortions

Numerical tools
CosmoBolognaLib

Readings/Bibliography

General Relativity: The Essentials - Carlo Rovelli;
Cambridge University Press
Modern Cosmology Second Edition - Scott Dodelson, Fabian Schmidt;
Academic Press
Lecture slides, notes and selected scientific papers

Teaching methods

Oral lectures and laboratories of data analysis

Assessment methods

The exam is oral. It starts with a discussion on a specific topic chosen by the student. Then it follows with questions on all other arguments covered in the course, with the aim of verifying the aquired knowledge on both theoretical and observational aspects of modern Cosmology.

Teaching tools

Blackboard and presentations of slides.

Office hours

See the website of Federico Marulli