Lecturer: Christian Ikenmeyer

Term(s): Term 2

Status for Mathematics students: List A

Commitment: 30 one-hour lectures

Assessment: Homework 15%, 3 hour written exam 85%

Formal registration prerequisites: None

Assumed knowledge:

• MA138 Sets and Numbers
• MA136 Introduction to Abstract Algebra
• MA106 Linear Algebra
• MA251 Algebra I: Advanced Linear Algebra
• MA249 Algebra II: Groups and Rings

Useful background: Only the above

Synergies: This module goes well with other third year algebra modules, particularly Group Theory.

Leads to: The following modules have this module listed as assumed knowledge or useful background:

• MA453 Lie Algebras
• MA4M6 Category Theory

Content: The concept of a group is defined abstractly (as set with an associative binary operation, a neutral element, and a unary operation of inversion) but is better understood through concrete examples, for instance:

• Permutation groups
• Matrix groups
• Groups defined by generators and relations.

All these concrete forms can be investigated with computers. In this module we will study groups by:

• Finding matrix groups to represent them
• Using matrix arithmetic to uncover new properties. In particular, we will study the irreducible characters of a group and the square table of complex numbers they define. Character tables have a tightly-constrained structure and contain a great deal of information about a group in condensed form. The emphasis of this module will be on the interplay of theory with calculation and examples.

Aims: To introduce representation theory of finite groups in a hands-on fashion.

Objectives: To enable students to:

• Understand matrix and linear representations of groups and their associated modules
• Compute representations and character tables of groups
• Know the statements and understand the proofs of theorems about groups and representations covered in this module.

Books:

Many books explain the theory well and give different examples:

James and Liebeck - Representations and Characters of Groups;

Steinberg - Representation Theory of Finite Groups; An Introductory Approach;

Sagan - The Symmetric Group; Representations, Combinatorial Algorithms and Symmetric Functions;

Fulton and Harris - Representation Theory; A First Course;

Serre - Linear Representations of Finite Groups.

Additional Resources