Hadron interactions and cosmic strings from lattice simulations

TL;DR

This thesis applies lattice techniques to study hadron interactions in QCD and the emission of particles and gravitational waves from cosmic string loops, providing new insights into both quantum chromodynamics and cosmic string dynamics.

Contribution

It introduces lattice simulation results for hadron interactions and cosmic string decay, combining quantum field theory and gravitational wave emission studies.

Findings

Meson interactions vary with the number of colors.

Three-pion interactions analyzed in chiral perturbation theory.

Cosmic string loops emit particles and GWs during decay.

Abstract

This doctoral thesis focuses on the application of lattice techniques to study two separate topics: hadron interactions within quantum chromodynamics (QCD), and the emission of particles and gravitational waves (GWs) from cosmic string loops. The first part of the dissertation deals with the study of two- an three-particle interactions using lattice QCD simulations, complemented by the limit of large number of colors and chiral perturbation theory. In particular, this part presents results on the study of meson interactions as a function of the number of colors, three-pion interactions in chiral perturbation theory, and two- and three-particle scattering in the (1+1)-dimensional O(3) non-linear sigma model. The second part of the thesis is devoted to the study of the dynamics and decay into particles and GWs of cosmic string loops, using classical-field-theory lattice computations. Results are presented for both global and local string loops.