Module – 1 " History of Atomic & Molecular Physics and basic backgrounds"
Lecture – 1: Introduction to Atomic and Molecular Physics
Lecture – 2: A brief history of the development of structure of atom
Lecture – 3: Formulation of Old Quantum theory
Lecture – 4: Quantization of radiation and matter: Wave-Particle duality
Lecture – 5: Electromagnetic Radiation – Matter Interactions
Lecture – 6: Radiative transitions and spectral broadening
Module – 2 "Atomic physics and atomic structure"
Lecture 7 Quantum Mechanical treatment of One-electron atoms
Lecture 8 : Quantum Mechanical treatment of One-electron atoms : radial part
Lecture 9 : Interpretation of wavefunction and modification forAlkali atoms
Lecture 10 : ALKALI SPECTRA
Lecture 11 Helium Atom
Lecture 12 : Central Field Approximation
Lecture 13 : Title : Coupling of angular momentum
Lecture 14: Evaluation of Terms of an atom
Lecture 15 : Evaluation of coupled wavefunction
Lecture 16 : Wigner-Eckart theorem
Lecture 17 :Fine structure : Spin-orbit coupling
Lecture 18 : Fine Structure : multi-electron atoms
Lecture 19 : j-j coupling
Lecture 20: Effect of Static Magnetic field on the spectral lines
Lecture 21: Hyperfine Structure of Spectral Lines
Lecture 22 Zeeman effect in Hyperfine structures
Lecture 23 : Electron Spin resonance spectroscopy
Lecture 24 : Nuclear magnetic resonance spectroscopy (N.M.R)
Lecture 25 : X- Ray Spectra
Module – 3 "Molecular physics and molecular structure"
Lecture 26 : Fundamentals of the Quantum Theory of molecule formation
Lecture 27 : Understanding of Molecular Orbital
Lecture 28 : Diatomic Molecule : Vibrational and Rotational spectra
Lecture 29: The rotational-vibrational spectra
Lecture 30 : Raman Scattering
Lecture 31 : Vibrational structure of electronic transition
Lecture 32 : Rotational structure of particular electronic transition
Lecture 33 : Intensity distribution in the electronic vibrational structure
Lecture 34 : Term values of the electronic states of the molecule
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