Reheating After Inflation, 1st ed. 2020 SpringerBriefs in Physics Series

This book provides a pedagogical introduction to the rapidly growing field of reheating after inflation. It begins with a brief review of the inflationary paradigm and a motivation for why the reheating of the universe is an integral part of inflationary cosmology. It then goes on to survey different aspects of reheating in a chronological manner, starting from the young, empty and cold universe at the end of inflation, and going all the way to the hot and thermal universe at the beginning of the Big Bang nucleosynthesis epoch. Different particle production mechanisms are considered with a focus on the non-perturbative excitation of scalar fields at the beginning of reheating (fermionic and vector fields are also discussed). This is followed by a review of the subsequent non-linear dynamical processes, such as soliton formation and relativistic turbulence. Various thermalization processes are also discussed. High energy physics embeddings of phenomenological models as well as observational implications of reheating such as gravitational waves generation and imprints on the cosmic microwave background are also covered.

Kaloian Lozanov is a postdoctoral researcher and a member of the Physical Cosmology Group at the Max Planck Institute for Astrophysics in Garching. He completed his PhD in Theoretical Cosmology at the University of Cambridge working on reheating after inflation. His current research, as a theoretical cosmologist, focuses on the genesis of the universe during the hot big bang. As a part of his research, he develops analytical and numerical methods to improve our understanding of the evolution of non-equilibrium field theories in the context of early-universe cosmology.

A pedagogical introduction to reheating after inflation

Offers simple numerical prescription for Floquet stability analysis in periodically varying backgrounds

Reviews the state-of-the-art numerical techniques for the study of non-linear reheating dynamics