Particle Physics and Nuclear Structure
( 25 Modules )

Module #1
Introduction to Particle Physics
Overview of the field, historical context, and fundamental principles

Module #2
Basic Concepts in Particle Physics
Particles, interactions, and conservation laws

Module #3
Particle Classification
Fermions, bosons, and hadrons

Module #4
The Standard Model of Particle Physics
Quarks, leptons, and gauge bosons

Module #5
Interactions and Forces
Electromagnetic, weak, and strong nuclear forces

Module #6
Particle Decays and Reactions
Types of decays, reaction rates, and Feynman diagrams

Module #7
accelerator and Detector Physics
Principles and applications of particle accelerators and detectors

Module #8
Nuclear Structure and Properties
Nuclear binding energy, size, and shape

Module #9
Nuclear Force and Models
Phenomenological and microscopic models of the nuclear force

Module #10
Nuclear Reactions and Radioactivity
Types of nuclear reactions, radioactive decay modes, and half-lives

Module #11
Nuclear Stability and Instability
Stable and unstable nuclei, nuclear stability curves

Module #12
Nuclear Models and Theories
Shell model, collective model, and other approaches

Module #13
Nuclear Energy Applications
Nuclear power, radiation detection, and medical applications

Module #14
Quark-Gluon Plasma and Heavy-Ion Physics
High-energy nuclear collisions and the quark-gluon plasma state

Module #15
Beyond the Standard Model
Extensions and alternatives to the Standard Model, including supersymmetry and extra dimensions

Module #16
Neutrino Physics
Neutrino properties, oscillations, and detection

Module #17
Cosmic Rays and High-Energy Astrophysics
Particle physics in the cosmos, including cosmic rays and gamma-ray astronomy

Module #18
Dark Matter and Dark Energy
Theoretical frameworks and experimental searches for dark matter and dark energy

Module #19
Quantum Field Theory and Renormalization
Introduction to quantum field theory and renormalization techniques

Module #20
Symmetries and Group Theory
Symmetries in particle physics, group theory, and Lie algebras

Module #21
Computational Methods in Particle Physics
Simulation techniques, event generators, and data analysis tools

Module #22
Experimental Techniques in Nuclear Physics
Detector systems, data acquisition, and analysis techniques

Module #23
Nuclear Astrophysics and Nucleosynthesis
Nuclear reactions in astrophysical environments, nucleosynthesis, and elemental abundance

Module #24
Current Research and Open Questions
Current research areas, open questions, and future directions in particle physics and nuclear structure

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Particle Physics and Nuclear Structure career

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Particle Physics and Nuclear Structure ( 25 Modules )

Particle Physics and Nuclear Structure
( 25 Modules )