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| * ~+'''Lecture 18'''+~, ~-Feb 24-~: <<la("LectureNotes18.pdf","Superconductors")>> * ~+'''Lecture 17'''+~, ~-Feb 22-~: <<la("LectureNotes17.pdf","Semiconductor Theory and Devices")>> * ~+'''Lecture 16'''+~, ~-Feb 17-~: <<la("LectureNotes16.pdf","Energy bands and Conduction")>> * ~+'''Lecture 15'''+~, ~-Feb 15-~: <<la("LectureNotes15.pdf","Molecular spectra and Crystalline solids")>> * ~+'''Lecture 14'''+~, ~-Feb 13-~: <<la("LectureNotes14.pdf","Molecules")>> |
Lecture 18, Feb 24: Superconductors
Lecture 17, Feb 22: Semiconductor Theory and Devices
Lecture 16, Feb 17: Energy bands and Conduction
Lecture 15, Feb 15: Molecular spectra and Crystalline solids
Lecture 14, Feb 13: Molecules
Lecture 13, Feb 10: Boson Examples: Black body radiation and Laser
Lecture 12, Feb 8: Classical limits and Quantum Gas Examples
Lecture 11, Feb 6: Quantum Statistics
Lecture 10, Feb 3: Boltzman Statistics
Lecture 9, Jan 30: Angular momentum in external magnetic fields
Lecture 8, Jan 27: Multi-electron atoms, identical particles, and exclusion principle
Corrections were made on the lecture notes uploaded on the 26th. See the red text in the document
Lecture 7, Jan 25: Spin and LS Coupling
Lecture 6, Jan 23: 3-d Schrodinger Equation for the hydrogen atom II
Lecture 5, Jan 20: 3-d Schrodinger Equation for the hydrogen atom I
Lecture 4, Jan 18: Hydrogen atom spectral lines
Lecture 3, Jan 13: 1d finite and infinite potential wells and 3d infinite potential well
Lecture 2, Jan 11: Wave functions and Schrodinger Equation