Supersymmetric gauge theory: an application of group theory in high energy physics and starobinsky model of cosmological ination

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Date

2016

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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).

Keywords

Supersymmetric gauge theory, Energy physics, Cosmic inflation

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