Supersymmetric gauge theory: an application of group theory in high energy physics and starobinsky model of cosmological ination
Date
2016
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
BRAC University
Abstract
This thesis discusses the general role of symmetry in high-energy physics. It concentrates
on the role of fermionic symmetry generators, which generate the symmetry known as
supersymmetry. An extensive discussion of spinors in D-dimensions is given and the
necessity of spinors is explained from a group theoretical point of view. The supersymmetric
transformation rules of the elds are explained and Lagrangians for simple theories are
explained. We generalize to SU(n) gauge theories and give a discussion of con nement
in supersymmetric gauge theories. We also apply supersymmetry in the Starobinsky model
of cosmological in
ation by constructing a NSWZ model equivalent to the R2 Starobinsky
model. A parametrically quadratic function, x(t) providing favourable conditions for in
ation
is found for eld, x in terms of a string modulus, t.
Description
This internship report is submitted in a partial fulfillment of the requirements for the degree of Bachelor of Science in Physics, 2016
Cataloged from PDF version of internship report.
Includes bibliographical references (page 82-83).
Cataloged from PDF version of internship report.
Includes bibliographical references (page 82-83).
Keywords
Supersymmetric gauge theory, Energy physics, Cosmic inflation
