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MIT OpenCourseWare

MIT 8.701 Introduction to Nuclear and Particle Physics, Fall 2020

164,180 views
67 items
Last updated on Jun 24, 2021
public playlist 
Instructor: Markus Klute 
View the complete course: https://ocw.mit.edu/8-701F20
YouTube Playlist: https://www.youtube.com/playlist?list...

This is an introductory graduate level course on the phenomenology and experimental foundations of nuclear and particle physics, including the fundamental forces and particles, as well as composites.

License: Creative Commons BY-NC-SA
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MIT OpenCourseWare
L0.1 Introduction to Nuclear and Particle Physics: Course Overview
5:58
L0.1 Introduction to Nuclear and Particle Physics: Course Overview

MIT OpenCourseWare
L0.2 Introduction to Nuclear and Particle Physics: Course Organization
4:01
L0.2 Introduction to Nuclear and Particle Physics: Course Organization

MIT OpenCourseWare
L0.3 Introduction to Nuclear and Particle Physics: Teaching Staff
4:24
L0.3 Introduction to Nuclear and Particle Physics: Teaching Staff

MIT OpenCourseWare
L0.4 Introduction to Nuclear and Particle Physics: Literature
3:35
L0.4 Introduction to Nuclear and Particle Physics: Literature

MIT OpenCourseWare
L0.5 Introduction: Early History and People in Nuclear and Particle Physics
16:01
L0.5 Introduction: Early History and People in Nuclear and Particle Physics

MIT OpenCourseWare
L0.6 Introduction to Nuclear and Particle Physics: Particles
14:00
L0.6 Introduction to Nuclear and Particle Physics: Particles

MIT OpenCourseWare
L0.7 Introduction to Nuclear and Particle Physics: Units
5:48
L0.7 Introduction to Nuclear and Particle Physics: Units

MIT OpenCourseWare
L0.8 Introduction to Nuclear and Particle Physics: Relativistic Kinematics
15:21
L0.8 Introduction to Nuclear and Particle Physics: Relativistic Kinematics

MIT OpenCourseWare
L0.9 Introduction to Nuclear and Particle Physics: Spin
5:05
L0.9 Introduction to Nuclear and Particle Physics: Spin

MIT OpenCourseWare
L1.1 Fermions, Bosons, and Fields: Quantum Field and Matter
7:04
L1.1 Fermions, Bosons, and Fields: Quantum Field and Matter

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L1.2 Fermions, Bosons, and Fields: Feynman Diagram
5:54
L1.2 Fermions, Bosons, and Fields: Feynman Diagram

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L1.3 Fermions, Bosons, and Fields: Ranges of Forces
5:30
L1.3 Fermions, Bosons, and Fields: Ranges of Forces

MIT OpenCourseWare
L1.4 Fermions, Bosons, and Fields: Decays
7:37
L1.4 Fermions, Bosons, and Fields: Decays

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L1.5 Fermions, Bosons, and Fields: Reactions
3:54
L1.5 Fermions, Bosons, and Fields: Reactions

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L2.1 Symmetries: Introduction
7:15
L2.1 Symmetries: Introduction

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L2.2 Symmetries: Flavor Symmetry
6:50
L2.2 Symmetries: Flavor Symmetry

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L2.3 Symmetries: Parity
4:29
L2.3 Symmetries: Parity

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L2.4 Symmetries: Charge Conjugation
2:30
L2.4 Symmetries: Charge Conjugation

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L2.5 Symmetries: CP
11:17
L2.5 Symmetries: CP

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L3.1 Feynman Calculus: Introduction
2:18
L3.1 Feynman Calculus: Introduction

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L3.2 Feynman Calculus: Fermi's Golden Rule
6:37
L3.2 Feynman Calculus: Fermi's Golden Rule

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L3.3 Feynman Calculus: Toy Theory
5:42
L3.3 Feynman Calculus: Toy Theory

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L3.4 Feynman Calculus: Higher-Order Diagrams
3:30
L3.4 Feynman Calculus: Higher-Order Diagrams

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L3.5 Feynman Calculus: Divergency
6:33
L3.5 Feynman Calculus: Divergency

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L4.1 QED: Free Wave Equation
5:38
L4.1 QED: Free Wave Equation

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L4.2 QED: Dirac Equation Solutions
6:04
L4.2 QED: Dirac Equation Solutions

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L4.3 QED: Antiparticles
3:04
L4.3 QED: Antiparticles

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L4.4 QED: Photon
7:47
L4.4 QED: Photon

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L4.5 QED: Feynman Rules for QED
5:51
L4.5 QED: Feynman Rules for QED

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L4.6 QED: Examples
4:22
L4.6 QED: Examples

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L4.7 QED: Casimir's Trick
10:24
L4.7 QED: Casimir's Trick

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L4.8 QED: Cross Sections
6:50
L4.8 QED: Cross Sections

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L4.9 QED: Renormalization and Higher-Order QED Diagrams
4:43
L4.9 QED: Renormalization and Higher-Order QED Diagrams

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L4.10 QED: Noether's Theorem
5:22
L4.10 QED: Noether's Theorem

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L5.1 QCD: Hadron Production
9:28
L5.1 QCD: Hadron Production

MIT OpenCourseWare
L5.2 QCD: Elastic Electron-Positron Scattering
6:50
L5.2 QCD: Elastic Electron-Positron Scattering

MIT OpenCourseWare
L5.3 QCD: Feynman Rules in QCD
5:51
L5.3 QCD: Feynman Rules in QCD

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L5.4 QCD: Deep Inelastic Scattering
9:52
L5.4 QCD: Deep Inelastic Scattering

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L5.5 QCD: Asymptotic Freedom
6:54
L5.5 QCD: Asymptotic Freedom

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L5.6 QCD: Hadron Collider
3:56
L5.6 QCD: Hadron Collider

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L6.1 Weak Interactions: Feynman Rules
9:45
L6.1 Weak Interactions: Feynman Rules

MIT OpenCourseWare
L6.2 Weak Interactions: Electroweak Unification
9:25
L6.2 Weak Interactions: Electroweak Unification

MIT OpenCourseWare
L6.3 Weak Interactions: Pion Decay
7:51
L6.3 Weak Interactions: Pion Decay

MIT OpenCourseWare
L6.4 Weak Interactions: Quarks
9:17
L6.4 Weak Interactions: Quarks

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L6.5 Weak Interactions: Neutral Current
2:20
L6.5 Weak Interactions: Neutral Current

MIT OpenCourseWare
L7.1 Higgs Physics: Higgs Mechanism
13:24
L7.1 Higgs Physics: Higgs Mechanism

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L7.2 Higgs Physics: Fermion Masses
3:42
L7.2 Higgs Physics: Fermion Masses

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L7.3 Higgs Physics: Production and Decay
5:36
L7.3 Higgs Physics: Production and Decay

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L7.4 Higgs Physics: Current Status
8:14
L7.4 Higgs Physics: Current Status

MIT OpenCourseWare
L8.1 Neutrino Physics: In the Standard Model
5:05
L8.1 Neutrino Physics: In the Standard Model

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L8.2 Neutrino Physics: Mass
5:18
L8.2 Neutrino Physics: Mass

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L8.3 Neutrino Physics: Mixing
5:38
L8.3 Neutrino Physics: Mixing

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L8.4 Neutrino Physics: Experimental Study
11:12
L8.4 Neutrino Physics: Experimental Study

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L8.5 Neutrino Physics: Results of Neutrino Oscillation Experiments
5:37
L8.5 Neutrino Physics: Results of Neutrino Oscillation Experiments

MIT OpenCourseWare
L8.6 Neutrino Physics: Mass Scale and Nature
7:22
L8.6 Neutrino Physics: Mass Scale and Nature

MIT OpenCourseWare
L9.1 Nuclear Physics: Introduction
5:26
L9.1 Nuclear Physics: Introduction

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L9.2 Nuclear Physics: Binding Energies
9:31
L9.2 Nuclear Physics: Binding Energies

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L9.3 Nuclear Physics: Stability
10:25
L9.3 Nuclear Physics: Stability

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L9.4 Nuclear Physics: Nuclear Force
9:18
L9.4 Nuclear Physics: Nuclear Force

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L9.5 Nuclear Physics: Shell Model
6:32
L9.5 Nuclear Physics: Shell Model

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L9.6 Nuclear Physics: Gamma Decay
4:43
L9.6 Nuclear Physics: Gamma Decay

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L9.7 Nuclear Physics: Fission
5:27
L9.7 Nuclear Physics: Fission

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L9.8 Nuclear Physics: Fusion
9:26
L9.8 Nuclear Physics: Fusion

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L10.1 Instrumentation: Particle Interaction with Matter
17:14
L10.1 Instrumentation: Particle Interaction with Matter

MIT OpenCourseWare
L10.2 Instrumentation: Tracking Detectors
9:27
L10.2 Instrumentation: Tracking Detectors

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L10.3 Instrumentation: Calorimetry
6:25
L10.3 Instrumentation: Calorimetry

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L10.4 Instrumentation: Accelerators
23:58
L10.4 Instrumentation: Accelerators