Condensed Matter Physics

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2 STUDENTS

Symmetry and Physical Properties of Crystals Point groups, Bravais lattices, Space groups, Neumann’s Principle and tensor properties of crystalline solids, elements of group theory, diffraction of waves in periodic structures – Vibrations of crystal lattices, phonons and Debye theory of specific heats, thermal expansion and thermal conductivity – Free electron theory, Band structure of solids, metals, insulators and semiconductors, intrinsic and doped semiconductors, effective mass, electrons and holes, Hall effect and cyclotron resonance, galvanomagnetic phenomena, carrier lifetime, semiconductor devices – Dielectric solids, polarization, polarizability, susceptibility, polar and nonpolar dielectrics, dispersion and absorption, electronic, ionic and orientational polarizabilities – Magnetism, para, dia and ferromagnetic solids, exchange interactions and antiferromagnetism, magnetic ordering, spin waves – Superconductors, London theory, Ginsburg- Landau theory and BCS theory, High temperature superconductors, superfluidity and quantum fluids – Noncrystalline solids, scaling theory and weak localization, defects in solids, point defects and dislocations

Course Curriculum

Principles of Condensed Matter Physics Details 28:51
Symmetry in Perfect Solids Details 46:33
Symmetry in Perfect Solids (Continued) Details 33:17
Mod-01 Lec-3ex Symmetry in Perfect Solids – Worked Examples Details 52:48
Diffraction Methods For Crystal Structures Details 48:28
Diffraction Methods For Crystal Structures (Continued) Details 33:17
ex Diffraction Methods For Crystal Structures – Worked Examples Details 21:58
Physical Properties of Crystals Details 37:46
Physical Properties of Crystals (Continued) Details 36:17
ex Physical Properties of Crystals – Worked Examples Details 17:20
Cohesion in Solids Details 39:40
ex Cohesion in Solids – Worked Examples Details 17:2
The Free Electron Theory of Metals Details 43:38
ex The Free Electron Theory of Metals – Worked Examples Details 25:12
The Free Electron Theory of Metals – Electrical Conductivity Details 42:57
ex The Free Electron Theory of Metals – Electrical Conductivity – Worked Examples Details 7:59
Thermal Conductivity of Metals Details 38:17
ex Thermal Conductivity of Metals – Worked Examples Details 8:24
The Concept of Phonons Details 43:53
Debye Theory of Specific Heat, Lattice Vibrations Details 39:1
ex Debye Theory of Specific Heat, Lattice Vibrations – Worked Examples Details 18:27
Lattice Vibrations (Continued) Phonon thermal conductivity Details 45:56
ex Lattice Vibrations (Continued) Phonon Thermal Conductivity – Worked Examples Details 5:7
Anharmonicity and Thermal Expansion Details 45:27
Dielectric (Insulating) Solids Details 39:19
Dispersion and Absorption of Electromagnetic Waves in Dielectric Media, Ferro Details 42:45
Optical Properties of Metals; Ionic Polarization in Alkali Halides; Piezoelectricity Details 41:12
ex Dielectric Solids – Worked Examples Details 43:10
Dia – and Paramagnetism Details 40:1
Paramagnetism of Transition Metal and Rare Earth Ions Details 45:11
Quenching of Orbital Angular Momentum; Ferromagnetism Details 46:14
Exchange Interactions, Magnetic Order, Neutron Diffraction Details 48:20
Hysteresis and Magnetic Domains; Spin Waves and Magnons Details 41:52
Magnetic Resonance Details 57:42
ex(C) Magnetism – Worked Examples (Continued) Details 49:28
ex Magnetism and Magnetic Resonance – Worked Examples Details 43:16
Pauli Paramagnetism and Landau Diamagnetism Details 31:8
Band Magnetism; Itinerant Electrons; Stoner Model Details 34:28
Superconductivity – Perfect Electrical Conductivity and Perfect Diamagnetism Details 49:15
Type I and Type II Superconductors Details 41:21
Ginsburg – Landau Theory, Flux Quantization Details 46:52
Cooper Pairs Details 36:25
Microscopic (BCS) Theory of Superconductivity Details 36:30
BCS Theory (Continued): Josephson Tunneling: Quantum Interference Details 36:37
Josephson Effect (Continued); High Temperature Superconductors Details 36:11
ex Superconductors – Worked Examples Details 38:17
Energy Bands in Solids Details 39:30
Electron Dynamics in a Periodic Solid Details 43:11
Semiconductors Details 37:53
Semiconductors (Continued) Details 33:11

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