Theoretical Models in Particle Physics
( 25 Modules )

Module #1
Introduction to Particle Physics
Overview of the standard model, fundamental forces, and particles

Module #2
Symmetries and Conservation Laws
Introduction to symmetries, conservation laws, and Noethers theorem

Module #3
Lagrangian Mechanics
Review of classical Lagrangian mechanics and its application to particle physics

Module #4
Quantum Field Theory (QFT) Basics
Introduction to QFT, fields, and particles as excitations

Module #5
Dirac Equation and Spinors
Solving the Dirac equation, spinors, and their properties

Module #6
Quantization of Free Fields
Canonical quantization of free scalar and spinor fields

Module #7
Interacting Fields and Feynman Diagrams
Introduction to interacting fields, Feynman diagrams, and perturbation theory

Module #8
Renormalization Group and Running Couplings
Renormalization group, running couplings, and asymptotic freedom

Module #9
Electroweak Unification
Glashow-Weinberg-Salam model, electroweak symmetry breaking, and the Higgs mechanism

Module #10
Quantum Chromodynamics (QCD)
Introduction to QCD, hadrons, and confinement

Module #11
Flavor Symmetries and CP Violation
Flavor symmetries, CP violation, and the CKM matrix

Module #12
Beyond the Standard Model
Motivations for new physics, limitations of the standard model

Module #13
Supersymmetry (SUSY)
Introduction to SUSY, superpartners, and their phenomenology

Module #14
Extra Dimensions and Kaluza-Klein Theory
Introduction to extra dimensions, compactification, and Kaluza-Klein theory

Module #15
Grand Unified Theories (GUTs)
Introduction to GUTs, unification of forces, and proton decay

Module #16
String Theory Basics
Introduction to string theory, D-branes, and Calabi-Yau manifolds

Module #17
Inflation and the Early Universe
Introduction to inflation, cosmology, and the early universe

Module #18
Dark Matter and Dark Energy
Introduction to dark matter and dark energy, their properties, and detection methods

Module #19
Effective Field Theories
Introduction to effective field theories, Wilson coefficients, and operator product expansion

Module #20
Monte Carlo Simulations
Introduction to Monte Carlo simulations, event generators, and detector simulations

Module #21
Current Research and Open Questions
Discussion of current research, open questions, and outstanding problems in particle physics

Module #22
Computational Tools for Particle Physics
Introduction to computational tools, such as FeynCalc, FormCalc, and MadGraph

Module #23
Particle Physics and Cosmology
Interplay between particle physics and cosmology, dark matter, and dark energy

Module #24
Experimental Techniques and Detectors
Overview of experimental techniques, detectors, and data analysis in particle physics

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Theoretical Models in Particle Physics career

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Theoretical Models in Particle Physics ( 25 Modules )

Theoretical Models in Particle Physics
( 25 Modules )