Nuclear and Particle Physics (Prof. Poulose Poulose, IIT Guwahati) | Physics

Nuclear and Particle Physics

Nuclear and Particle Physics. Instructor: Prof. Poulose Poulose, Department of Physics, IIT Guwahati. The first part of the course will discuss nuclear physics. Properties of nuclei and details of popular nuclear models, properties of nuclear decays and nuclear reactions will be discussed in brief, but in a self-consistent manner. The second part will discuss the basics of particle physics. In this part, the fundamental forces and the dynamics of elementary particles under these forces will be considered. After introducing relativistic quantum mechanics, relativistic formulation of Maxwell Equations and quantum electrodynamics will be discussed. This will be developed into the weak and strong nuclear forces based on the principle of gauge symmetry. The course will also introduce the physical principles of particle accelerators and detectors, including a very brief picture of the modern day complex detectors. (from nptel.ac.in)

Introduction

Basic Properties of Nucleus

Lecture 01 - Introduction

Lecture 02 - Properties of Nucleus

Lecture 03 - Properties of Nuclear Force

Nuclear Force

Lecture 04 - Deuteron

Lecture 05 - Nucleons Scattering

Lecture 06 - Nuclear Models I

Lecture 07 - Nuclear Models II

Lecture 08 - Radioactive Decay: General Properties

Lecture 09 - Nuclear Alpha Decay

Nuclear Beta Decay and Gamma Decay

Lecture 10 - Nuclear Beta Decay

Lecture 11 - Beta Decay Details

Lecture 12 - Gamma Decay

Nuclear Reactions

Lecture 13 - Nuclear Scattering: Preliminaries

Lecture 14 - Types of Reactions

Lecture 15 - Particle Accelerators I

Lecture 16 - Particle Accelerators II

Particle Detectors and Elementary Particles

Lecture 17 - Detectors

Lecture 18 - Elementary Particles: Introduction and Overview

Lecture 19 - Quark Model I

Lecture 20 - Quark Model II

Elementary Particles and Structure of the Hadron

Lecture 21 - Quark Model III

Lecture 22 - Structure of the Hadron: Nucleus

Lecture 23 - Structure of the Hadron: Proton

Structure of the Hadron and Electroweak Interactions

Lecture 24 - Deep Inelastic Scattering

Lecture 25 - Relativistic Kinematics

Lecture 26 - Klein-Gordon Equation

Lecture 27 - Interaction of Charged Scalar with EM Field

Electroweak Interactions

Lecture 28 - Relativistic Electrodynamics

Lecture 29 - Quantum Electrodynamics

Lecture 30 - Interaction between Charged Scalars

Lecture 31 - Dirac Equations 1

Lecture 32 - Dirac Equations 2

Lecture 33 - Interacting Charged Fermions 1

Lecture 34 - Interacting Charged Fermions 2

Lecture 35 - Interacting Charged Fermions 3

Lecture 36 - Scattering Cross Section Revisited 1

Lecture 37 - Scattering Cross Section Revisited 2

Lecture 38 - Weak Interactions 1

Lecture 39 - Weak Interactions 2

Lecture 40 - Lagrangian Framework

Lecture 41 - Gauge Symmetry - U(1)

Lecture 42 - Electroweak Theory 1

Lecture 43 - Electroweak Theory 2

Lecture 44 - SSB and the Higgs Mechanism

References

Nuclear and Particle Physics
Instructor: Prof. Poulose Poulose, Department of Physics, IIT Guwahati. This course will introduce nuclear physics, the basics of particle physics, and the physical principles of particle accelerators and detectors.