Lectures related to Radiation Detection: Introduction

Overview of Particle Physics and Rutherford Scattering

Covers the constituents of matter, fundamental forces, the Standard Model, natural units, and particle interaction experiments.

Quantum Field Theory: Particle Interactions

Explores the Dirac equation, Pauli-Dirac representation, particle solutions, operators, particle types, Feynman diagrams, and quantum electrodynamics.

Design Patterns: Composite Objects and Array Structures

Explores composite objects, array structures, and design patterns in scientific computing, emphasizing efficient data handling and compute operations.

Particle Physics: Fundamentals and Interactions

Covers the basics of particle physics, including elementary particles, forces, the Standard Model, and rare phenomena at the LHC.

Radiation Detection: Basics and Applications

Explores the history and principles of radiation detection, as well as its diverse applications.

Asymptotic States and S-matrix: Operators

Explores asymptotic states, S-matrix, and operators in quantum field theory, emphasizing the role of discrete symmetries and complete sets of states.

Particle Detection and Detectors

Explores particle detection using scintillators, cloud chambers, and wire chambers for various applications.

Quantum Fluids: Cross Section & Lifetime

Covers the concepts of cross section and lifetime in quantum fluids, focusing on transition and differential probabilities.

Gauge Theories And Modern Particle Physics

Covers gauge theories, modern particle physics, the standard model, and field content.

Radiation Protection: Basics

Covers the interaction of radiations with matter, dose concepts, and radiation shielding.

Particle Interactions: Forces and Newton's Laws

Explores particle interactions, forces, Newton's laws, and the center of mass in systems.

Ceramic Powders: Electrostatic Repulsion and Steric Stabilization

Explores electrostatic repulsion, steric stabilization, and the rheology of ceramic powders.

Fundamental Forces: Gravitational and Electromagnetic Interactions

Explores gravitational and electromagnetic forces, particle interactions, and magnetic field effects.

Quantum Field Theory: Fundamentals and Applications

Introduces Quantum Field Theory, covering paths to QFT, fields, weak interactions, and the Standard Model of particle Physics.

Elementary Particles: Decays and Properties

Explores elementary particle decays, stability, lifetimes, and properties measurement through kinematic reconstruction and experimental examples.

Interaction of Radiation with Matter: Part 1

Covers the interaction of radiation with matter, focusing on charged particles and radiation types.

Forces in Physics

Explores fundamental forces in physics, including gravity, electromagnetism, friction, and deformation.

Symmetries in Particle Physics

Explores symmetries in particle physics, covering parity, charge conjugation, fermion quantum numbers, chirality, and their applications in understanding particle interactions.

Large-area sensors: Devices and Applications

Explores the principles and applications of large-area sensors, including flat panel imagers and X-ray imaging.

Detectors: Particle Detection and Technologies

Explores particle detection methods, ionization processes, tracking detectors, scintillation, and calorimeters in particle physics experiments.