Admin Items
- Announcements & Reminders
- Reminder: Next week’s talk will cover characteristic classes and their applications.
- Please send any additional seminar topic proposals by Friday.
This Week’s Finds
No finds this week.
Focus Session
Speaker: Joshua
Title: Representation Theory and Spinor Construction
1. Overview
- This talk explores how representation theory underpins spinor construction via Clifford algebras.
- Goals:
- Introduce basic representation theory notions relevant to Clifford algebras.
- Show how spin representations emerge as irreducible modules over the algebra.
2. Main Content
- Representation Theory Basics
- Definition of group representation: homomorphism \(\rho: G \to \mathrm{GL}(V)\).
- Module over an algebra: \(V\) as a left \(\mathrm{Cl}(p,q)\)-module.
- Irreducibility and Schur’s Lemma: criteria for simple modules.
- Spin Representations from Clifford Algebras
- Spin group \(\mathrm{Spin}(p,q)\) as a subgroup of invertible elements in \(\mathrm{Cl}(p,q)\).
- Construction of spinor module: minimal left ideal \(\mathrm{Cl}(p,q)\,P\) yields irreducible representation.
- Explicit matrix realizations: Dirac and Weyl spinors as representation spaces.
- Relationship between algebra action and Lorentz transformations \(\Lambda \in \mathrm{SO}(p,q)\) via the double cover.
3. Discussion Points
- Differences between real and complex representations in physics applications.
- Role of primitive idempotents in selecting irreducible modules.
- Physical interpretation of module structure under symmetry transformations.
Up Next
Reading Group Assignments:
- Fulton & Harris, Representation Theory: A First Course, Ch. 2–3
- Lounesto, Clifford Algebras and Spinors, Ch. 5
Next Talk:
- Alice on Characteristic Classes and Their Applications
References
- Fulton & Harris, Representation Theory: A First Course.
- Lounesto, Clifford Algebras and Spinors.
- Representation Theory (Wikipedia)
- Clifford Algebra (Wikipedia)