subjectId
Discipline Name
Subject Name
Coordinators
Type
Institute
Content
115101005
Physics
Electromagnetic Theory
Prof. D.K. Ghosh
Video
IIT Bombay
Select
L1-Scalar field and its Gradient
L2-Line and Surface Integrals
L3-Divergence and Curl of Vector Fields
L4-Conservative Field, Stoke's Theorem
L5-Laplacian
L6-Electric Field Potential
L7-Gauss's Law, Potential
L8-Electric Field and Potential
L9-Potential and Potential Energy
L10-Potential and Potential Energy II
L11-Potential and Potential Energy III
L12-Coefficients of Potential and Capacitance
L13-Poission and Laplace Equation
L14-Solutions of Laplace Equation
L15-Solutions of Laplace Equation II
L16-Solutions of Laplace Equation III
L17-Special Techniques
L18-Special Techniques II
L19-Special Techniques III
L20-Dielectrics
L21-Dielectrics II
L22-Dielectrics III
L23-Equation of Continuity
L24-a) Force between current loops b) Magnetic Vector Potential
L25-Magnetic Vector Potential
L26-Boundary Conditions
L27-Magnetized Material
L28-Magentostatics (contd..),Time Varying Field (Introduction)
L29-Faraday's Law and Inductance
L30-Maxwell's Equations
L31-Maxwell's Equations and Conservation Laws
L32-Conservation Laws
L33-a) Angular Momentum Conservation b) Electromagnetic Waves
L34-Electromagnetic Waves
L35-Propagation of Electromagnetic Waves in a metal
L36-Waveguides
L37-Waveguides II
L38-Resonating Cavity
L39-Radiation
L40-Radiation II
115101011
Physics
Special Theory of Relativity
Prof. Shiva Prasad
Video
IIT Bombay
Select
L1-Problem with Classical Physics
L2-Michelson-Morley Experiment
L3-Postulates of Special Theory of Relativity and Galilean Transformation
L4-Look out for a New Transformation
L5-Lorentz Transformation
L6-Length Contraction and Time Dilation
L7-Examples of Length Contraction and Time Dilation
L8-Velocity Transformation and Examples
L9-A Three Event Problem
L10-A Problem involving Light and Concept of Casuality
L11-Problems involving Casuality and Need to Redefine Momentum
L12-Minikowski Space and Four Vectors
L13-Proper Time a Four Scalar
L14-Velocity Four Vector
L15-Momentum Energy Four Vector
L16-Relook at Collision Problems
L17-Zero Rest Mass Particle and Photon
L18-Doppler Effect in Light
L19-Example in C-Frame
L20-Force in Relativity
L21-Force Four-Vector
L22-Electric & Magnetic Field Transformation
L23-Example of EM Field Transformation
L24-Current Density Four Vector and Maxwell Equation
115102014
Physics
Electronics
Prof. D.C. Dube
Video
IIT Delhi
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p-n diode
p-n Junction/Diode(Contd.)
p-n diode (contd.)
Diode Application
Transistors
Reverse - bias (Contd.)
Transistors (Continue)
Transistors (Contd.)
Biasing a transistor unit 2 contd.
Biasing of transistor
H and R Parameters and their use in small amplifiers
Small signal amplifiers analysis using H - Parameters
Small signal amplifiers analysis using R - Parameters
R - analysis (Contd.)
Common Collector(CC) amplifier (Contd.)
Feedback in amplifiers, Feedback Configurations and multi stage amplifiers
Reduction in non-linear distortion
Input/Output impedances in negative feedback amplifiers (Contd.)
RC Coupled Amplifiers
RC Coupled Amplifiers (Contd.)
RC Coupled Amplifiers (Contd..)
FETs ans MOSFET
FETs ans MOSFET (Contd.)
Depletion - MOSFET
Drain and transfer characteristic of E - MOSFET
Self Bias (Contd.) Design Procedure
FET/MOSFET Amplifiers and their Analysis
CMOS Inverter
CMOS Inverter (contd.)
Power Amplifier
Power Amplifier (contd.)
Power Amplifier (contd..)
Power Amplifier (contd...)
Differential and Operational Amplifier
Differential and Operational Amplifier (Contd.) dc and ac analysis
Differential and Operational Amplifier dc and ac analysis (Contd.)
Operational Amplifiers
Operational amplifiers in open loop (Contd.)
Summing Amplifiers
Frequency response of an intigration
Filters
Specification of OP Amplifiers
115102020
Physics
Plasma Physics: Fundamentals and Applications
Prof. V.K. Tripathi,Prof. Vijayshri
Video
IIT Delhi
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Introduction to Plasmas
Plasma Response to fields: Fluid Equations
DC Conductivity and Negative Differential Conductivity
RF Conductivity of Plasma
RF Conductivity of Plasma Contd
Hall Effect, Cowling Effect and Cyclotron Resonance Heating
Electromagnetic Wave Propagation in Plasma
Electromagnetic Wave Propagation in Plasma Contd
Electromagnetic Wave Propagation Inhomogeneous Plasma
Electrostatic Waves in Plasmas
Energy Flow with an Electrostatic Wave
Two Stream Instability
Relativistic electron Beam- Plasma Interaction
Cerenkov Free Electron Laser
Free Electron Laser
Free Electron Laser: Energy gain
Free Electron Laser: Wiggler Tapering and Compton Regime Operation
Weibel Instability
Rayleigh Taylor Instability
Single Particle Motion in Static Magnetic and Electric Fields
Plasma Physics Grad B and Curvature Drifts
Adiabatic Invariance of Magnetic Moment and Mirror confinement
Mirror machine
Thermonuclear fusion
Tokamak
Tokamak operation
Auxiliary heating and current drive in tokamak
Electromagnetic waves propagation in magnetise plasma
Longitudinal electromagnetic wave propagation cutoffs, resonances and faraday rotation
Electromagnetic propagation at oblique angles to magnetic field in a plasma
Low frequency EM waves magnetized plasma
Electrostatic waves in magnetized plasma
Ion acoustic, ion cyclotron and magneto sonic waves in magnetized plasma
VIasov theory of plasma waves
Landau damping and growth of waves
Landau damping and growth of waves Contd
Anomalous resistivity in a plasma
Diffusion in plasma
Diffusion in magnetized plasma
Surface plasma wave
Laser interaction with plasmas embedded with clusters
Current trends and epilogue
115102022
Physics
Quantum Electronics
Prof. K. Thyagarajan
Video
IIT Delhi
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Introduction
Anisotropic Media
Anisotropic Media (Contd.)
Anisotropic Media (Contd..)
Nonlinear optical effects and nonlinear polarization
Non - Linear Optics (Contd.)
Non - Linear Optics (Contd..)
Non - Linear Optics (Contd...)
Non - Linear Optics (Contd....)
Non - Linear Optics - Quasi Phase Matching
Non - Linear Optics
Non Linear Optics contd
Non Linear Optics contd.
Non Linear Optics contd..
Non Linear Optics contd...
Non Linear Optics contd....
Non Linear Optics contd.....
Non Linear Optics contd......
Non Linear Optics contd.......
Third Order Non - Linear Effects
Third Order Non - Linear Effects(Contd.)
Third Order Non - Linear Effects(Contd..)
Third Order Non - Linear Effects(Contd...)
Review of Quantum Mechanics
Review of Quantum Mechanics (Contd.)
Review of Quantum Mechanics (Contd..)
Quantization of EM Field
Quantization of EM Field (Contd.)
Quantization of EM Field (Contd..)
Quantum States of EM Field
Quantum States of EM Field (Contd.)
Quantization of EM Field (Contd...)
Quantization of EM Field (Contd....)
Quantization of EM Field (Contd.....)
Quantization of EM Field (Contd......)
Quantization of EM Field (Contd.......)
Beam Splitter
Beam Splitter (Contd..)
Beam Splitter and Balanced Homodyning
Balanced Homodyning
Quantum Picture of Parametric Down Conversion
Questions
115102023
Physics
Quantum Mechanics and Applications
Prof. Ajoy Ghatak
Video
IIT Delhi
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Basic Quantum Mechanics I: Wave Particle Duality
Basic Quantum Mechanics II: The Schrodinger Equation and The Dirac Delta Function
Dirac Delta Function & Fourier Transforms
The Free Particle
Physical Interpretation of The Wave Function
Expectation Values & The Uncertainty Principle
The Free Particle (Contd.)
Interference Experiment & The Particle in a Box Problem
On Eigen Values and Eigen Functions of the 1 Dimensional Schrodinger Equation
Linear Harmonic Oscillator
Linear Harmonic Oscillator (Contd1.)
Linear Harmonic Oscillator (Contd2.)
Linear Harmonic Oscillator (Contd3.)
Tunneling through a Barrier
The 1-Dimensional Potential Wall & Particle in a Box
Particle in a Box and Density of States
The Angular Momentum Problem
The Angular Momentum Problem (Contd.)
The Hydrogen Atom Problem
The Two Body Problem
TheTwo Body Problem: The Hydrogen atom, The Deutron and The Diatomic Molecule
Two Body Problem: The Diatomic molecule (contd.) and the 3 Dimensional Oscillator
3d Oscillator & Dirac's Bra and Ket Algebra
Dirac�s Bra and Ket Algebra
Dirac�s Bra and Ket Algebra : The Linear Harmonic Oscillator
The Linear Harmonic Oscillator using Bra and Ket Algebra (contd.)
The Linear Harmonic Oscillator: Coherent State and Relationship with the Classical Oscillator
Coherent State and Relationship with the Classical Oscillator
Angular Momentum Problem using Operator Algebra
Angular Momentum Problem (contd.)
Pauli Spin Matrices and The Stern Gerlach Experiment
The Larmor Precession and NMR Spherical Harmonics using Operator Algebra
Addition of Angular Momentum: Clebsch Gordon Coefficient
Clebsch Gordon Coefficients
The JWKB Approximation
The JWKB Approximation: Use of Connection Formulae to solve Eigen value Problems.
The JWKB Approximation: Use of Connection Formulae to calculate Tunneling Probability.
The JWKB Approximation: Tunneling Probability Calculations and Applications.
The JWKB Approximation: Justification of the Connection Formulae
Time Independent Perturbation Theory
Time Independent Perturbation Theory (Contd.1)
Time Independent Perturbation Theory (Contd.2)
115102026
Physics
Semiconductor Optoelectronics
Prof. M. R. Shenoy
Video
IIT Delhi
Select
Context and Scope of the Course
Energy Bands in Solids
E-K Diagram
The Density of States
The Density of States (contd..)
The Density of states in a Quantum well Structure
Occupation Probability and Carrier Concentration
Carrier Concentration and Fermi Level
Quasi Fermi Levels
Semiconductor Materials
Semiconductor Hetrostructures-Lattice-Matched Layers
Strained -Layer Epitaxy and Quantum Well Structures
Bandgap Engineering
Hetrostructure p-n junctions
Schottky Junction and Ohmic Contacts
Fabrication of Heterostructure Devices
Interaction od Photons with Electrons and Holes in a Semiconductor
Optical Joint Density of States
Rates of Emission and Absorption
Amplication by Stimulated Emission
The Semiconductor (Laser) Amplifier
Absorption Spectrum of Semiconductor
Gain and Absorption Spectrum of Quantum Well Structures
Electro-absorption Modulator
Electro-absorption Modulator - II Device Configuration
Mid-Term Revision Question and Discussion
Part - III Semiconductor Light Sources
Light Emitting Diode-I Device Structure and Parameters
Light Emitting Diode-II Device Chracteristics
Light Emitting Diode-III Output Characteristics
Light Emitting Diode-IV Modulation Bandwidth
Light Emitting Diode-V materials and Applications
Laser Basics
Semiconductor Laser - I Device Structure
Semiconductor Laser - II Output Characteristics
Semiconductor Laser - III Single Frequency Lasers
Vertical Cavity Surface Emitting Laser (VCSEL)
Quantum Well Laser
Practical Laser Diodes and Handling
General Characteristics of Photodetectors
Responsivity and Impulse Response
Photoconductors
Semiconductor Photo-Diodes
Semiconductor Photo-Diodes -II : APD
Other Photodectors
Photonic Integrated Circuits
115104043
Physics
Nuclear Physics: Fundamentals and Applications
Prof. H.C. Verma
Video
IIT Kanpur
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Lecture-01-Brief Overview of the course
Lecture-02-Nuclear Size
Lecture-03-Nuclear Size Cont..
Lecture-04-Nuclear Size Cont..
Lecture-05-Semi empirical Mass Formula
Lecture-06-Semi empirical Mass Formula Cont..
Lecture-07-Semi empirical Mass Formula Cont..
Lecture-08-Semi empirical Mass Formula Cont..
Lecture-09-Semi empirical Mass Formula Cont..
Lecture-10-How are Neutron stars bound
Lecture-11-Deuteron
Lecture-12-Deuteron Cont..
Lecture-13-Deuteron Cont..
Lecture-14-Scattering of nucleons
Lecture-15-Low energy n-p scattering
Lecture-16-Theories of nuclear forces
Lecture-17-Shell model
Lecture-18-Shell model Contd..
Lecture-19-Shell model Contd..
Lecture-20-Shell model Contd..
Lecture-21-Shell model Contd..
Lecture-22-Collective models
Lecture-23-Vibrational and Rotational levels
Lecture-24-Radioactivity, Alpha Decay
Lecture-25-Alpha decay Contd..
Lecture-26-Beta decay
Lecture-27-Beta decay Contd..
Lecture-28-Beta decay Contd..
Lecture-29-Gamma decay
Lecture-30-Nuclear Reactions
Lecture-31-Nuclear reaction Contd..
Lecture-32-Nuclear reaction Contd..
Lecture-33-Nuclear Fission basics
Lecture-34-Nuclear fission of uranium
Lecture-35-Nuclear Fission Reactor
Lecture-36-Nuclear Energy Programme of India
Lecture-37-Nuclear Fusion
Lecture-38-Nuclear fusion Contd..
Lecture-39-Thermonuclear fusion reactors
Lecture-40-Fusion reactions in Stars and stellar neutrinos
Lecture-41-Nucleosynthesis of elements in Stars
Lecture-42-Mossbauer Spectroscopy
Lecture-43-RBS, PIXE, NAA, Summary
115105046
Physics
Astrophysics & Cosmology
Prof. S. Bharadwaj
Video
IIT Kharagpur
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Introduction
Keplers Law
The Solar System
The Solar System (Contd.)
Binary Systems
Binary Systems (Contd.)
Tidal Forces and the Earth Moon System
Fluid Mechanics
Hydrostatics and the Solar Wind
Radiative Transfer
Radiative Transfer (Contd.)
Thermal Radiation
Thermal Radiation and the Sun
Virial Theorem and Its Application to Stars
Stars: Magnitudes and the H-R Diagram
Stellar Physics - I
Stellar Physics - II
Stellar Physics - III
Stellar Physics - IV
Stellar Physics - V
White Dwarfs
White Dwarfs and Neutron Stars
Galaxies
Galaxies and the Expanding Universe
The Expanding Universe
Dynamics of the Expanding Universe
Dynamics of the Expanding Universe (Contd.)
The Expanding Universe and the Cosmological Metric
The Cosmological Space - Time
Distances
Distances (Contd.)
Distances and the Hubble Parameter
Distances, the Hubble Parameter and Dark Energy (Contd.)
CMBR and Thermal History
CMBR and Thermal History (Contd...1)
CMBR and Thermal History (Contd...2)
Thermal History, Expansion Rate and Neutrino Mass
Thermal History: Neutrino Mass, Nucleosynthesis
Big Bang Nucleosynthesis
115106057
Physics
Special/Select Topics in Atomic Physics
Prof. P.C. Deshmukh
Video
IIT Madras
Select
Introductory lecture about this course
Quantum Mechanics and Symmetry of the Hydrogen Atom
Hydrogen atom: Rotational and Dynamical Symmetry of the 1/r Potential
Hydrogen atom: Dynamical Symmetry of the 1/r Potential
Degeneracy of the Hydrogen Atom: SO(4)
Wavefunctions of the Hydrogen Atom
Angular Momentum in Quantum Mechanics
Angular Momentum in Quantum Mechanics: half-odd-integer and integer quantum numbers: SU(2) & SO(3)
Angular Momentum in Quantum Mechanics: Addition Theorem for Spherical Harmonics - Coupling of Angular Momenta
Angular Momentum in Quantum Mechanics Dimensionality of the Direct-Product (Composite) Vector Space CGC recursion relations
Angular Momentum in Quantum Mechanics CGC matrix, Wigner D Rotation Matrix, Irreducible Tensor Operators
Angular Momentum in Quantum Mechanics - more on ITO, and the Wigner-Eckart Theorem
Angular Momentum in Quantum Mechanics Wigner-Eckart Theorem - 2
Relativistic Quantum Mechanics of the Hydrogen Atom - 1
Relativistic Quantum Mechanics of the Hydrogen Atom - 2
Relativistic Quantum Mechanics of the Hydrogen Atom - PAULI Equation - Foldy - Wouthysen Transformations - 1
Relativistic Quantum Mechanics of the Hydrogen Atom - Foldy - Wouthysen Transformations - 2
Relativistic Quantum Mechanics of the Hydrogen Atom - Foldy - Wouthysen Transformations - 3
Relativistic Quantum Mechanics of the Hydrogen Atom - Spherical Symmetry of the Coulomb Potential
Hartree-Fock Self-Consistent Field formalism - 1
Hartree-Fock Self-Consistent Field formalism - 2
Hartree-Fock Self-Consistent Field formalism - 3
Hartree-Fock Self-Consistent Field formalism - 4
Hartree-Fock Self-Consistent Field formalism - 5
Perturbative treatment of relativistic effects� Schrodinger's and Dirac QM
Perturbative treatment of relativistic effects� Schrodinger's and Dirac QM
Probing the atom - Collisions and Spectroscopy - boundary conditions - 1
Atomic Probes - Collisions and Spectroscopy - boundary conditions - 2
Atomic Probes - Collisions and Spectroscopy - Scattering phase shifts and boundary conditions
Atomic Probes - Time reversal symmetry - applications in atomic collisions and photoionization processes
Atomic Photoionization cross sections, angular distributions of photoelectrons - 1
Atomic Photoionization cross sections, angular distributions of photoelectrons - 2
Atomic Photoionization cross sections, angular distributions of photoelectrons - 3
Atomic Photoionization cross sections, angular distributions of photoelectrons - 4
Atomic Photoionization cross sections, angular distributions of photoelectrons Cooper Zare Formula
Stark- Zeeman Spectroscopy - Stark effect
Stark- Zeeman Spectroscopy - Stark effect on n=2 excited state of the H atom Zeeman effect
Stark- Zeeman Spectroscopy - Normal, Anomalous Zeeman effect; Paschen- Back effect
Stark- Zeeman Spectroscopy - Anomalous Zeeman effect
Zeeman effect Fine structure, Hyperfine structure - Elemental, rudimentary introduction to Laser Cooling, BEC, Atomic Clock / Attosecond metrology
115106058
Physics
Classical Field Theory
Prof. Suresh Govindarajan
Video
IIT Madras
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Lecture 1
Lecture 2
Lecture 3
Lecture 4
Lecture 5
Lecture 6
Lecture 7
Lecture 8
Lecture 9
Lecture 10
Lecture 11
Lecture 12
Lecture 13
Lecture 14
Lecture 15
Lecture 16
Lecture 17
Lecture 18
Lecture 19
Lecture 20
Lecture 21
Lecture 22
Lecture 23
Lecture 24
Lecture 25
Lecture 26
Lecture 27
Lecture 28
Lecture 29
Lecture 30
Lecture 31
Lecture 32
Lecture 33
Lecture 34
Lecture 35
Lecture 36
Lecture 37
Lecture 38
Lecture 39
115106059
Physics
Topics in Nonlinear Dynamics
Prof. V. Balakrishnan
Video
IIT Madras
Select
Introductory lecture about this course
Quantum Mechanics and Symmetry of the Hydrogen Atom
Hydrogen atom: Rotational and Dynamical Symmetry of the 1/r Potential
Hydrogen atom: Dynamical Symmetry of the 1/r Potential
Degeneracy of the Hydrogen Atom: SO(4)
Wavefunctions of the Hydrogen Atom
Angular Momentum in Quantum Mechanics
Angular Momentum in Quantum Mechanics: half-odd-integer and integer quantum numbers: SU(2) & SO(3)
Angular Momentum in Quantum Mechanics: Addition Theorem for Spherical Harmonics - Coupling of Angular Momenta
Angular Momentum in Quantum Mechanics Dimensionality of the Direct-Product (Composite) Vector Space CGC recursion relations
Angular Momentum in Quantum Mechanics CGC matrix, Wigner D Rotation Matrix, Irreducible Tensor Operators
Angular Momentum in Quantum Mechanics - more on ITO, and the Wigner-Eckart Theorem
Angular Momentum in Quantum Mechanics Wigner-Eckart Theorem - 2
Relativistic Quantum Mechanics of the Hydrogen Atom - 1
Relativistic Quantum Mechanics of the Hydrogen Atom - 2
Relativistic Quantum Mechanics of the Hydrogen Atom - PAULI Equation - Foldy - Wouthysen Transformations - 1
Relativistic Quantum Mechanics of the Hydrogen Atom - Foldy - Wouthysen Transformations - 2
Relativistic Quantum Mechanics of the Hydrogen Atom - Foldy - Wouthysen Transformations - 3
Relativistic Quantum Mechanics of the Hydrogen Atom - Spherical Symmetry of the Coulomb Potential
Hartree-Fock Self-Consistent Field formalism - 1
Hartree-Fock Self-Consistent Field formalism - 2
Hartree-Fock Self-Consistent Field formalism - 3
Hartree-Fock Self-Consistent Field formalism - 4
Hartree-Fock Self-Consistent Field formalism - 5
Perturbative treatment of relativistic effects� Schrodinger's and Dirac QM
Perturbative treatment of relativistic effects� Schrodinger's and Dirac QM
Probing the atom - Collisions and Spectroscopy - boundary conditions - 1
Atomic Probes - Collisions and Spectroscopy - boundary conditions - 2
Atomic Probes - Collisions and Spectroscopy - Scattering phase shifts and boundary conditions
115106061
Physics
Condensed Matter Physics
Prof. G. Rangarajan
Video
IIT Madras
Select
Principles of Condensed Matter Physics
Symmetry in Perfect Solids
Symmetry in Perfect Solids (Continued)
Symmetry in Perfect Solids - Worked Examples
Diffraction Methods For Crystal Structures
Diffraction Methods For Crystal Structures (Continued)
Diffraction Methods For Crystal Structures - Worked Examples
Physical Properties of Crystals
Physical Properties of Crystals (Continued)
Physical Properties of Crystals - Worked Examples
Cohesion in Solids
Cohesion in Solids - Worked Examples
The Free Electron Theory of Metals
The Free Electron Theory of Metals - Worked Examples
The Free Electron Theory of Metals - Electrical Conductivity
The Free Electron Theory of Metals - Electrical Conductivity - Worked Examples
Thermal Conductivity of Metals
Thermal Conductivity of Metals - Worked Examples
The Concept of Phonons
Debye Theory of Specific Heat, Lattice Vibrations
Debye Theory of Specific Heat, Lattice Vibrations - Worked Examples
Lattice Vibrations (Continued) Phonon thermal conductivity
Lattice Vibrations (Continued) Phonon Thermal Conductivity - Worked Examples
Anharmonicity and Thermal Expansion
Dielectric (Insulating) Solids
Dispersion and Absorption of Electromagnetic Waves in Dielectric Media, Ferro-and Antiferroelectrics
Optical Properties of Metals; Ionic Polarization in Alkali Halides; Piezoelectricity
Dielectric Solids - Worked Examples
Dia - and Paramagnetism
Paramagnetism of Transition Metal and Rare Earth Ions
Quenching of Orbital Angular Momentum; Ferromagnetism
Exchange Interactions, Magnetic Order, Neutron Diffraction
Hysteresis and Magnetic Domains; Spin Waves and Magnons
Magnetic Resonance
Magnetism and Magnetic Resonance - Worked Examples�
Magnetism - Worked Examples (Continued)
Pauli Paramagnetism and Landau Diamagnetism
Band Magnetism; Itinerant Electrons; Stoner Model
Superconductivity - Perfect Electrical Conductivity and Perfect Diamagnetism
Type I and Type II Superconductors
Ginsburg - Landau Theory, Flux Quantization
Cooper Pairs�
Microscopic (BCS) Theory of Superconductivity
BCS Theory (Continued): Josephson Tunneling: Quantum Interference
Josephson Effect (Continued); High Temperature Superconductors
Superconductors - Worked Examples
Energy Bands in Solids
Electron Dynamics in a Periodic Solid
Semiconductors
Semiconductors (Continued)
Semiconductors - Worked Examples
Defects in Solids - Point Defects
Point Defects in Solids - Worked Examples
Defects in Solids - Line and Surface Defects
Dislocations in Solids - Worked Examples
Quantum Fluids and Quantum Solids
Quantum Liquids and Quantum Solids - Worked Examples
Epilogue
115106065
Physics
Quantum Field Theory
Prof. Prasanta Tripathy
Video
IIT Madras
Select
Introduction
Introduction to Classical Field Theory
Quantization of Real Scalar Field - I
Quantization of Real Scalar Field - II
Quantization of Real Scalar Field - III
Quantization of Real Scalar Field - IV
Quantization of Complex Scalar Field
Interacting Field Theory - I
Interacting Field Theory - II
Interacting Field Theory - III
Interacting Field Theory - IV
Interacting Field Theory - V
Interacting Field Theory - VI
Interacting Field Theory - VII
Quantuzation of Electromagnetic Field I
Quantuzation of Electromagnetic Field II
Fermion Quantization I
Fermion Quantization II
Fermion Quantization III
Fermion Quantization IV
Fermion Quantization V
Fermion Quantization VI
The S-Matrix Expansion in QED I
The S-Matrix Expansion in QED II
Feynman Rules in QED I
Feynman Rules in QED II
Compton Scattering I
Compton Scattering II
Compton Scattering III
Moller Scattering I
Moller Scattering II
Vertex Correction I
Vertex Correction II
Vertex Correction III
Vertex Correction IV
Electron Selfenergy
Photon Selfenergy I
Photon Selfenergy II
115106066
Physics
Quantum Mechanics I
Prof. S. Lakshmi Bala
Video
IIT Madras
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Quantum Mechanics � An Introduction
Linear Vector Spaces - I
Linear Vector Spaces - II: The two-level atom
Linear Vector Spaces - III: The three-level atom
Postulates of Quantum Mechanics - I
Postulates of Quantum Mechanics - II
The Uncertainty Principle
The Linear Harmonic Oscillator
Introducing Quantum Optics
An Interesting Quantum Superposition: The Coherent State
The Displacement and Squeezing Operators
Exercises in Finite Dimensional Linear Vector Spaces
Exercises on Angular Momentum Operators and their algebra
Exercises on Quantum Expectation Values
Composite Systems
The Quantum Beam Splitter
Addition of Angular Momenta - I
Addition of Angular Momenta - II
Addition of Angular Momenta - III
Infinite Dimensional Linear Vector Spaces
Square-Integrable Functions
Ingredients of Wave Mechanics
The Schrodinger equation
Wave Mechanics of the Simple Harmonic Oscillator
One-Dimensional Square Well Potential: The Bound State Problem
The Square Well and the Square Potential Barrier
The Particle in a one-dimensional Box
A Charged Particle in a Uniform Magnetic Field
The Wavefunction: Its Single-valuedness and its Phase
The Central Potential
The Spherical Harmonics
Central Potential: The Radial Equation
Illustrative Exercises -I
Illustrative Exercises -II
Ehrenfest's Theorem
Perturbation Theory - I
Perturbation Theory - II
Perturbation Theory - III
Perturbation Theory - IV
Time-dependent Hamiltonians
The Jaynes-Cummings model
115106068
Physics
Special Topics in Classical Mechanics
Prof. P.C. Deshmukh
Video
IIT Madras
Select
Course Overview
Equations of Motion(i)
Equations of Motion(ii)
Equations of Motion(iii)
Equations of Motion(iv)
Equations of Motion(v)
Oscillators, Resonances, Waves(i)
Oscillators, Resonances, Waves(ii)
Oscillators, Resonances, Waves(iii)
Oscillators, Resonances, Waves(iv)
Polar Coordinates(i)
Polar Coordinates(ii)
Dynamical Symmetry in the Kepler Problem(i)
Dynamical Symmetry in the Kepler Problem(ii)
Real Effects of Pseudo-Forces
Real Effects of Pseudo-Forces(ii)
Real Effects of Pseudo-Forces(iii)
Real Effects of Pseudo-Forces(iv)
Special Theory of Relativity(i)
Special Theory of Relativity(ii)
Special Theory of Relativity(iii)
Special Theory of Relativity(iv)
Potentials Gradients Fields(i)
Potentials Gradients Fields(ii)
Potentials Gradients Fields(iii)
Gauss Law Eq of continuity(i)
Gauss Law Eq of continuity(ii)
Gauss Law Eq of continuity(iii)
Fluid Flow Bernoulli Principle (i)
Fluid Flow Bernoulli Principle (ii)
Classical Electrodynamics (i)
Classical Electrodynamics (ii)
Classical Electrodynamics (iii)
Classical Electrodynamics (iv)
Chaotic Dynamical Systems (i)
Chaotic Dynamical Systems (ii)
Chaotic Dynamical Systems (iii)
Chaotic Dynamical Systems (iv)
Chaotic Dynamical Systems (v)
The Scope and Limitations of Classical Mechanics
115106085
Physics
Special/Select Topics in the Theory of Atomic Collisions and Spectroscopy
Prof. P.C. Deshmukh
Video
IIT Madras
Select
Introduction to the STiTACS course
Quantum Theory of collisions
Quantum Theory of collisions: optical Theorem
Quantum Theory of collisions: Optical Theorem.
Quantum Theory of collisions: Differential scattering cross section
Quantum Theory of collisions: Differential scattering cross section, Partial wave analysis
Quantum Theory of collisions: Optical Theorem � Unitarity of the Scattering Operator
Quantum Theory of collisions: Reciprocity Theorem, Phase shift analysis
Quantum Theory of collisions: More on Phase shift analysis
Quantum Theory of collisions: resonant condition in the l th partial wave.
Quantum Theory of collisions: Levinson�s theorem
Quantum Theory of collisions: Levinson�s theorem.
Many body theory, electron correlations
Second Quantization Creation, Destruction and Number operators
Many-particle Hamiltonian & Schrodinger Equation in 2nd Quantization
Many-electron problem in quantum mechanics
Hartree-Fock Self-Consistent-Field
Exchange, Statistical, Fermi-Dirac correlations
Limitations of the Hartree-Fock Self-Consistent-Field formalism
Many-Body formalism, II Quantization
Density fluctuations in an electron gas
Bohm-Pines approach to Random Phase Approximation
Bohm-Pines approach to Random Phase Approximation.
Bohm-Pines approach to Random Phase Approximation..
Schrodinger, Heisenberg and Dirac �pictures� of QM
Dyson�s chronological operator
Gell-Mann-Low Theorem
Reyleigh-Schrodinger perturbation methods and adiabatic switching
Feynman Diagrams
I Order Feynman Diagrams
II and higher order Feynman Diagrams
Linear response of electron correlations
Lippman Schwinger equation of potential scattering
Born Approximation
Coulomb scattering
Scattering of partial waves
Scattering at high energy
Resonances in Quantum Collisions
Breit-Wigner Resonances
Fano parameterization of Breit-Wigner formula
Discrete state embedded in the continuum
Resonance life times
Wigner-Eisenbud formalism of time-delay in scattering
Photoionization and Photoelectron Angular Distributions
Ionization and Excitation of Atoms by Fast Charged Particles
Photo-absorption by Free and Confined Atoms and Ions: Recent Developments
115108074
Physics
Relativistic Quantum Mechanics
Prof. Apoorva D Patel
Video
IISc Bangalore
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Introduction, The Klein-Gordon equation
Particles and antiparticles, Two component framework
Coupling to electromagnetism, Solution of the Coulomb problem
Bohr-Sommerfeld semiclassical solution of the Coulomb problem, The Dirac equation and the Clifford algebra
Dirac matrices, Covariant form of the Dirac equation, Equations of motion, Spin, Free particle solutions
Electromagnetic interactions, Gyromagnetic ratio
The Hydrogen atom problem, Symmetries, Parity, Separation of variables
The Frobenius method solution, Energy levels and wavefunctions
Non-relativistic reduction, The Foldy-Wouthuysen transformation
Interpretation of relativistic corrections, Reflection from a potential barrier
The Klein paradox, Pair creation process and examples
Zitterbewegung, Hole theory and antiparticles
Charge conjugation symmetry, Chirality, Projection operators, The Weyl equation
Weyl and Majorana representations of the Dirac equation, Unitary and antiunitary symmetries
Time reversal symmetry, The PCT invariance
Arrow of time and particle-antiparticle asymmetry, Band theory for graphene
Dirac equation structure of low energy graphene states, Relativistic signatures in graphene properties
Groups and symmetries, The Lorentz and Poincare groups
Group representations, generators and algebra, Translations, rotations and boosts
The spinor representation of SL(2,C), The spin-statistics theorem
Finite dimensional representations of the Lorentz group, Euclidean and Galilean groups
Classification of one particle states, The little group, Mass, spin and helicity
Massive and massless one particle states
P and T transformations, Lorentz covariance of spinors
Lorentz group classification of Dirac operators, Orthogonality and completeness of Dirac spinors, Projection operators
Propagator theory, Non-relativistic case and causality
Relativistic case, Particle and antiparticle contributions, Feynman prescription and the propagator
Interactions and formal perturbative theory, The S-matrix and Feynman diagrams
Trace theorems for products of Dirac matrices
Photons and the gauge symmetry
Abelian local gauge symmetry, The covariant derivative and invariants
Charge quantisation, Photon propagator, Current conservation and polarisations
Feynman rules for Quantum Electrodynamics, Nature of perturbative expansion
Dyson's analysis of the perturbation series, Singularities of the S-matrix, Elementary QED processes
The T-matrix, Coulomb scattering
Mott cross-section, Compton scattering
Klein-Nishina result for cross-section
Photon polarisation sums, Pair production through annihilation
Unpolarised and polarised cross-sections
Helicity properties, Bound state formation
Bound state decay, Non-relativistic potentials
Lagrangian formulation of QED, Divergences in Green's functions, Superficially divergent 1-loop diagrams and regularisation
Infrared divergences due to massless particles, Renormalisation and finite physical results
Symmetry constraints on Green's functions, Furry's theorem, Ward-Takahashi identity, Spontaneous breaking of gauge symmetry and superconductivity
Status of QED, Organisation of perturbative expansion, Precision tests |
115106086
Physics
Selected Topics in Mathematical Physics
Prof. V. Balakrishnan
Video
IIT Madras
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115106087
Physics
NUCLEAR REACTORS AND SAFETY- AN INTRODUCTION
Prof. G.Vaidyanathan
Video
SRM University
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Lecture-30
122105023
Physics
Physics I - Oscillations & Waves
Prof. S. Bharadwaj
Video
IIT Kharagpur
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122104016
Physics
Engineering Physics II
Prof. S. Raychaudhuri,Prof. V. Ravishankar
Video
IIT Kanpur
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122106034
Physics
Quantum Physics
Prof. V. Balakrishnan
Video
IIT Madras
Select
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122106027
Physics
Classical Physics
Prof. V. Balakrishnan
Video
IIT Madras
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Lecture-37
Lecture-38
122107035
Physics
Engineering Physics I
Prof. G.D. Verma,Prof. M. K. Srivastava,Prof. B. K. Patra,Prof. Rajdeep Chatterjee
Video
IIT Roorkee
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Lecture-01
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122104015
Physics
Engineering Mechanics
Prof. Manoj K Harbola
Video
IIT Kanpur
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Lecture-31
NOC
Physics
Mechanics, heat oscillations and waves
Prof. V. Balakrishnan
Video
IIT Madras
Select
The Nature of Physical Laws
Fundamental Constants & Dimensional Analysis
Dimensional analysis and scaling.
sketching Elementary Functions
The fundamental forces of nature.
Scalars,Victors & All That
Plane Polar Coordinates
Vectors In a Plane,Scalars & Pseudoscalars
Kinematics In a Plane
Vectors in 3- Dimensional Space
Vectors in 3-dimensional space (continued)
The Finite Rotation Formula, Polar Coordinates in 3-dimensions
Cylindrical and Spherical polar coordinates
Motion in a circle - Acceleration
Newtons laws of motion
Conservation Laws and Newtons Equations
Conservation of Angular Momentum
Two-Body Scattering
Two-Body Collision Kinematics
Conservative Forces - The Concept of a Potential
Central Potential and Central Force
The 2-Body Central Force Problem
Keplers Laws of Planetary Motion
Non-Inertial Forces ("Pseudo-forces")
More on the Kepler problem; Satellite motion
Linear Elasticity of Solids
Simple Harmonic Motion
Some Physical Examples of Simple Harmonic Motion
More on Simple Harmonic Motion
Damped Simple Harmonic Motion
Wave Motion - Travelling and Standing Waves
Wave Motion - Wave Equation, General Solution
Fluid Dynamics - Hydrostatic Equilibrium
Fluid Dynamics - Equation of Continuity
Fluid Flow - Bernoullis Principle
Circulation and Vorticity
What is Thermodynamics?
The Classical Ideal Gas
The Laws of Thermodynamics
Specific Heat of an Ideal Gas
Van der Waals Equation
Phase Transitions
Summary
NOC
Physics
Introduction to Electromagnetism
Prof. Manoj Harbola
Video
IIT Kanpur
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NOC
Physics
MATLAB Programming for Numerical Computation
Prof. Niket Kaisare
Video
IIT Madras
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NOC
Physics
Fiber Optics
Prof. Vipul Rastogi
Video
IIT Roorkee
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NOC
Physics
Introductory Quantum Mechanics
Prof. Manoj Harbola
Video
IIT Kanpur
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NOC
Physics
Quantum Information and Computing
Prof. Dipan Ghosh
Video
IIT Bombay
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NOC
Physics
Engineering Mechanics
Prof. Manoj Harbola
Video
IIT Kanpur
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NOC
Physics
Computational Science and Engineering Using Python
Prof. Mahendra Verma
Video
IIT Kanpur
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NOC
Physics
Solid State Physics
Prof. Amal Kumar Das
Video
IIT Kharagpur
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NOC
Physics
Mathematical Methods in Physics-I
Prof. Samudra Roy
Video
IIT Kharagpur
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NOC
Physics
Classical mechanics-from newtonian to lagrangian fromultion
Prof. Debmalya Banerjee
Video
IIT Kharagpur
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Physics
Advanced Condensed Matter Physics
Prof. Saurabh Basu
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IIT Guwahati
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Physics
Nuclear and Particle Physics
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IIT Guwahati
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Physics
Atomic and Molecular Physics
Prof. Amal Kumar Das
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IIT Kharagpur
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Physics
Theory of groups for physics applications
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IIT Bombay
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Physics
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Dr. Saurabh Basu
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IIT Guwahati
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Physics
Advanced Quantum Mechanics with Applications
Dr. Saurabh Basu
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IIT Guwahati
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Physics
Introduction to Non-linear Optics and its Applications
Prof. Samudra Roy
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IIT Kharagpur
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Physics
Upstream LNG Technology
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IIT Kharagpur
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Control System Design
Prof. G R Jayanth
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IISc Bangalore
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Quantum Mechanics I
Prof. Ramadevi
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IIT Bombay
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Physics
A brief course on Superconductivity
Dr. Saurabh Basu
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IIT Guwahati
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Physics
Introduction to Solid State Physics
Prof. Manoj K Harbola & Prof. Satyajit Banerjee
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IIT Kanpur
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Physics
Experimental Physics I
Prof. Amal Kumar Das
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IIT Kharagpur
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Physics
Statistical Mechanics
Prof. Ashwin Joy
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IIT Madras
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