SES # | TOPICS | LECTURE NOTES |
---|---|---|
L1 | Historical development | (PDF) |
L2 | The atom of Niels Bohr | (PDF) |
L3 | Wave nature, de Broglie wavelength | (PDF) |
L4 | Uncertainty principle | (PDF) |
L5 | Stationary waves, Schrödinger equation | (PDF) |
L6 | Particle in a box | (PDF) |
L7 | Probabilities, expectation values, operators I | (PDF) |
L8 | Probabilities, expectation values, operators II | (PDF) |
L9 | Postulates of quantum mechanics I | (PDF) |
L10 | Postulates of quantum mechanics II | (PDF) |
L11 | Classic harmonic oscillator | (PDF) |
L12 | Quantum harmonic oscillator |
Note supplement 1 (PDF - 1.1 MB) Note supplement 2 (PDF) |
L13 | Tunneling | |
L14 | Three dimensional systems | |
L15 | Rigid rotor | |
L16 | Spherical harmonics | (PDF) |
L17 | Angular momenta | (PDF) |
L18 | Hydrogen atom I | (PDF) |
L19 | Hydrogen atom II | (PDF) |
L20 | Variation principle | (PDF) |
L21 | Helium atom | (PDF - 1.3 MB) |
L22 | Hartree-Fock, SCF | |
L23 | Electron spin | (PDF) |
L24 | Pauli principle | (PDF) |
L25 | Born-Oppenheimer approximation | (PDF) |
L26 | Molecular orbital theory, H2+ | (PDF) |
L27 | LCAO-MO theory | (PDF) |
L28 | Qualitative molecular orbital theory | (PDF) |
L29 | Modern electronic structure theory | |
L30 | Interaction of light with matter | (PDF) |
L31 | Vibrational spectra | (PDF) |
L32 | NMR spectroscopy I | (PDF) |
L33 | NMR spectroscopy II | |
L34 | Perturbation theory | (PDF) |
L35 | Vibrational anharmonicity | (PDF) |
L36 | Crystal field states | (PDF) |