Courses:

Relativistic Quantum Field Theory III >> Content Detail



Calendar / Schedule



Calendar

LEC #TOPICS
Basic Concepts Underlying the Standard Model
1Gauge Symmetry

Review of Gauge Symmetry in Electrodynamics, from both Point Particle and Field Perspectives

Coulomb Law and Physical Photons from the Propagator

Gauge Symmetry Required to Avoid Ghosts

Definition of Non-abelian Gauge Symmetry
2Broken Gauge Symmetry

Abelian Higgs Model and its Quantization

Spectrum: Massive Gauge Boson, No Ghosts, No Physical Massless Particle
3Confinement

Illustration of the Phenomenon in a Simple Model (Multi-Chern-Simons Theory)
Specific Structure of the Standard Model
4Gauge and Higgs Sector

Lagrangian Model for SU(2)×U(1) Gauge-Higgs Sector

Mixing (Weinberg) Angle, Physical Spectrum and Coupling of the Gauge Bosons
5Quark and Lepton Multiplet Structure

Choice of SU(3) and SU(2) Representations and Hypercharges to Represent the Observed Quarks and Leptons
6Renormalizability

Indications of Renormalization Theory

Dimensional Criterion for Induced Terms

Classification of Allowed Terms in the Standard Model
7Canonical Forms

Use of Field Re-definitions to Simplify the Allowed Terms

Accidental Symmetries of the Simplified Forms, both for QED/QCD and for the full Standard Model
8CKM Matrix

Appearance of Weak Mixing Angles and Irremovable Phase

Schematic Discussion of Phenomenology
Renormalization Group and Asymptotic Freedom
9Equations of the Renormalization Group

Couplings must be Normalized a Scale Point, but the Scale is Arbitrary

Different Choices related by Renormalization Group

Alternative Perspective (Wilson), "Integrating Out" High Momentum Modes
10Running Couplings

Computation of the RG Functions

Asymptotic Freedom

Physical Interpretation: Antiscreening from Spin Paramagnetism
11Simplest Applications

Infrared Safety

Derivation of Jet Antenna Patterns

Brief Overview of Perturbative QCD
Unified Gauge Theories
12Unification of Quantum Numbers: SU(5)

Simple Breaking Scheme for SU(5) → SU(3)×SU(2)×U(1)

Identification of Hypercharge
13Unification Using SO(10)

Group Theory of Spinor Representation

Breaking Scheme

Quark and Lepton Quantum Numbers
14Unification of Couplings

Normalization of Hypercharge

Computation of Effective Couplings

Comparison with Observation
15Lepton and Baryon Number Violation

Low-dimension Operators for L and B Violation

Microscopic Mechanisms

Parameterization of Neutrino Mass Matrix
Close-Up on the Higgs Sector
16Coupling to Matter

Tree Graph Couplings

Gluon Coupling through Heavy Quark Loops
17Production and Decay Modes

Associated Production with Gauge Bosons

Gluon Fusion

Computation of Decay Rates
18Phenomenology of One and Two Doublet Models

Two Doublet Models

Practical Considerations on Signatures
Anomaly Basics
19Examples of Anomalies

Explicit Calculations in Simple Models

Impossibility of Removal by Subtraction
20Anomaly Cancellation

Indications on Non-renormalization Theorem

Application to Standard Model and Unified Models
Chiral Symmetry and the U(1)A Problem
21Approximate Chiral Symmetry

'Unexpectedly' Small Masses of Pions

Enhanced Symmetry of QCD with Zero Quark Masses, Not Manifested in the Spectrum
22Nambu-Goldstone Bosons: Masses and Couplings

Spontaneous Breaking of Approximate Chiral Symmetry

Nambu-Goldstone Bosons

Mass Formula

Goldberger-Treiman Relation
23The U(1)A Problem

Absence of NG Boson for Axial Baryon Number

Difficulty this Presents
Instantons and U(1)A Breaking
24Topological Sectors in Gauge Theory

Large Gauge Transformations

θ Vacuum

Lagrangian Interpretation
25Interpolation with Instantons

Semiclassical Passage between Sectors

Action Bound

Concrete Solution of the Euclidean Field Equations
26Functional Determinant and Fermion Zero Modes

Formal Evaluation of the Functional Integral

Collective Coordinates and Measure

Fermion Zero Modes and their Saturation

Fulfillment of Anomaly Equation
Nonperturbative (Lattice) Formulation of Gauge Theory
27Formulation of the Gauge Sector

Parallel Transporter

Plaquette Action

Dimensional Transmutation!
28Strong Coupling and Confinement

Color Sources and Wilson Criterion

Strong Coupling Expansion
29Formulation of the Fermions

Straightforward Formulation and its Problems with Doubling

Heavy Fermion Potential

Domain Wall Fermions

Link Fermions

 








© 2009-2020 HigherEdSpace.com, All Rights Reserved.
Higher Ed Space ® is a registered trademark of AmeriCareers LLC.