| Sl.No | Chapter Name | MP4 Download |
|---|---|---|
| 1 | Lecture 1 : Frequency Domain Spectroscopy: An Introduction | Download |
| 2 | Lecture 2 : Schematics of Instrumentation for FD Spectroscopy | Download |
| 3 | Lecture 3 : Sensitivity Light Collection and Signal to Noise Ratio | Download |
| 4 | Lecture 4 : Time Domain Spectroscopy | Download |
| 5 | Lecture 5 : Frequency Modulation for Fourier Transform Spectroscopy | Download |
| 6 | Lecture 6 : Rigid Rotor Model for Diatomic Molecules | Download |
| 7 | Lecture 7 : Recapitulation of Quantum Mechanics | Download |
| 8 | Lecture 8 : Conditions for Microwave Activity-I | Download |
| 9 | Lecture 9 : Conditions for Microwave Activity-II | Download |
| 10 | Lecture 10 : Microwave Spectra: Diatomic Molecules | Download |
| 11 | Lecture 11 : Simple Harmonic Oscillator | Download |
| 12 | Lecture 12 : Selection Rule | Download |
| 13 | Lecture 13 : High Resolution IR Spectra | Download |
| 14 | Lecture 14 : Anharmonic Oscillator and Raman Effect | Download |
| 15 | Lecture 15 : Semi Classical Treatment: Radiation-Matter | Download |
| 16 | Lecture 16 : Time Dependent Perturbation Theory | Download |
| 17 | Lecture 17 : Transition Moment Integral | Download |
| 18 | Lecture 18 : Transition Probability and Natural Linewidth | Download |
| 19 | Lecture 19 : Einstein Treatment | Download |
| 20 | Lecture 20 : Relationship Between Theoretical and Experimental Quantities | Download |
| 21 | Lecture 21 : Level System: Concluding Remark-I | Download |
| 22 | Lecture 22 : Level System: Concluding Remark-II | Download |
| 23 | Lecture 23 : Laser Basic | Download |
| 24 | Lecture 24 : Applications of Laser in Spectroscopy | Download |
| 25 | Lecture 25 : Laser in Spectroscopy: Ultrafast Dynamics | Download |
| 26 | Lecture 26 : Snapshot of Bond Breaking | Download |
| 27 | Lecture 27 : Raman Effect | Download |
| 28 | Lecture 28 : Raman Spectroscopy: Quantum Theory of Raman Effect | Download |
| 29 | Lecture 29 : Raman Spectroscopy and Beyond Dipole Approximation | Download |
| 30 | Lecture 30 : Symmetry in Chemistry: An Introduction | Download |
| 31 | Lecture 31 : Symmetry Operations : Transformation Matrices | Download |
| 32 | Lecture 32 : Representations Reducible and Irreducible | Download |
| 33 | Lecture 33 : Matrix Representation of Symmetry Point Group | Download |
| 34 | Lecture 34 : Group Theory : Character Table | Download |
| 35 | Lecture 35 : Character Table : Compendium of Irreducible Representations | Download |
| 36 | Lecture 36 : Mulliken Nomenclature, 2D Irreducible Representations and Bases | Download |
| 37 | Lecture 37 : Character Tables for Different Symmetry Point Groups | Download |
| 38 | Lecture 38 : Wave Functions as Basis | Download |
| 39 | Lecture 39 : Symmetry of Atomic and Molecular Orbitals | Download |
| 40 | Lecture 40 : Polyatomic Molecules : Normal Modes of Vibration | Download |
| 41 | Lecture 41 : Determination of Symmetries of Normal Modes of Vibration-I | Download |
| 42 | Lecture 42 : Determination of Symmetries of Normal Modes of Vibration-II | Download |
| 43 | Lecture 43 : A Shortcut to Symmetry of Normal Modes | Download |
| 44 | Lecture 44 : Normal Modes : Internal Motion IR and Raman Activity | Download |
| 45 | Lecture 45 : IR and Raman Activity-I | Download |
| 46 | Lecture 46 : IR and Raman Activity-II | Download |
| 47 | Lecture 47 : Electronic Spectroscopy : Introduction | Download |
| 48 | Lecture 48 : Electronic Spectra | Download |
| 49 | Lecture 49 : Rotational Fine Structure | Download |
| 50 | Lecture 50 : Symmetry of Electronic States | Download |
| 51 | Lecture 51 : Electronic States of Oxygen | Download |
| 52 | Lecture 52 : Electronic States and Transitions of Benzene | Download |
| 53 | Lecture 53 : Vibronic Coupling | Download |
| 54 | Lecture 54 : Electronic Spectrum of Benzene | Download |
| 55 | Lecture 55 : Basics of NMR Spectroscopy | Download |
| 56 | Lecture 56 : Basics of NMR Spectroscopy:II | Download |
| 57 | Lecture 57 : Spin Spin Coupling- AX systems | Download |
| 58 | Lecture 58 : Coupling in A2 systems | Download |
| 59 | Lecture 59 : Coupling in A2 systems (Continued) | Download |
| 60 | Lecture 60 : NMR: Spectra & Measurement, FT NMR 900 Pulses | Download |
| 61 | Lecture 61 : FT NMR 1800 Pulses & Relaxation Phenomenon | Download |
| 62 | Lecture 62 : Relaxation Phenomenon: Inversion Recovery | Download |
| 63 | Lecture 63 : No Splitting for A2 Systems | Download |
| Sl.No | Chapter Name | English |
|---|---|---|
| 1 | Lecture 1 : Frequency Domain Spectroscopy: An Introduction | Download To be verified |
| 2 | Lecture 2 : Schematics of Instrumentation for FD Spectroscopy | Download To be verified |
| 3 | Lecture 3 : Sensitivity Light Collection and Signal to Noise Ratio | Download To be verified |
| 4 | Lecture 4 : Time Domain Spectroscopy | Download To be verified |
| 5 | Lecture 5 : Frequency Modulation for Fourier Transform Spectroscopy | Download To be verified |
| 6 | Lecture 6 : Rigid Rotor Model for Diatomic Molecules | Download To be verified |
| 7 | Lecture 7 : Recapitulation of Quantum Mechanics | Download To be verified |
| 8 | Lecture 8 : Conditions for Microwave Activity-I | Download To be verified |
| 9 | Lecture 9 : Conditions for Microwave Activity-II | Download To be verified |
| 10 | Lecture 10 : Microwave Spectra: Diatomic Molecules | Download To be verified |
| 11 | Lecture 11 : Simple Harmonic Oscillator | Download To be verified |
| 12 | Lecture 12 : Selection Rule | Download To be verified |
| 13 | Lecture 13 : High Resolution IR Spectra | Download To be verified |
| 14 | Lecture 14 : Anharmonic Oscillator and Raman Effect | Download To be verified |
| 15 | Lecture 15 : Semi Classical Treatment: Radiation-Matter | Download To be verified |
| 16 | Lecture 16 : Time Dependent Perturbation Theory | Download To be verified |
| 17 | Lecture 17 : Transition Moment Integral | Download To be verified |
| 18 | Lecture 18 : Transition Probability and Natural Linewidth | Download To be verified |
| 19 | Lecture 19 : Einstein Treatment | Download To be verified |
| 20 | Lecture 20 : Relationship Between Theoretical and Experimental Quantities | Download To be verified |
| 21 | Lecture 21 : Level System: Concluding Remark-I | Download To be verified |
| 22 | Lecture 22 : Level System: Concluding Remark-II | Download To be verified |
| 23 | Lecture 23 : Laser Basic | Download To be verified |
| 24 | Lecture 24 : Applications of Laser in Spectroscopy | Download To be verified |
| 25 | Lecture 25 : Laser in Spectroscopy: Ultrafast Dynamics | Download To be verified |
| 26 | Lecture 26 : Snapshot of Bond Breaking | Download To be verified |
| 27 | Lecture 27 : Raman Effect | Download To be verified |
| 28 | Lecture 28 : Raman Spectroscopy: Quantum Theory of Raman Effect | Download To be verified |
| 29 | Lecture 29 : Raman Spectroscopy and Beyond Dipole Approximation | Download To be verified |
| 30 | Lecture 30 : Symmetry in Chemistry: An Introduction | Download To be verified |
| 31 | Lecture 31 : Symmetry Operations : Transformation Matrices | Download To be verified |
| 32 | Lecture 32 : Representations Reducible and Irreducible | Download To be verified |
| 33 | Lecture 33 : Matrix Representation of Symmetry Point Group | Download To be verified |
| 34 | Lecture 34 : Group Theory : Character Table | Download To be verified |
| 35 | Lecture 35 : Character Table : Compendium of Irreducible Representations | Download To be verified |
| 36 | Lecture 36 : Mulliken Nomenclature, 2D Irreducible Representations and Bases | Download To be verified |
| 37 | Lecture 37 : Character Tables for Different Symmetry Point Groups | Download To be verified |
| 38 | Lecture 38 : Wave Functions as Basis | Download To be verified |
| 39 | Lecture 39 : Symmetry of Atomic and Molecular Orbitals | Download To be verified |
| 40 | Lecture 40 : Polyatomic Molecules : Normal Modes of Vibration | Download To be verified |
| 41 | Lecture 41 : Determination of Symmetries of Normal Modes of Vibration-I | Download To be verified |
| 42 | Lecture 42 : Determination of Symmetries of Normal Modes of Vibration-II | Download To be verified |
| 43 | Lecture 43 : A Shortcut to Symmetry of Normal Modes | Download To be verified |
| 44 | Lecture 44 : Normal Modes : Internal Motion IR and Raman Activity | Download To be verified |
| 45 | Lecture 45 : IR and Raman Activity-I | Download To be verified |
| 46 | Lecture 46 : IR and Raman Activity-II | Download To be verified |
| 47 | Lecture 47 : Electronic Spectroscopy : Introduction | Download To be verified |
| 48 | Lecture 48 : Electronic Spectra | Download To be verified |
| 49 | Lecture 49 : Rotational Fine Structure | Download To be verified |
| 50 | Lecture 50 : Symmetry of Electronic States | Download To be verified |
| 51 | Lecture 51 : Electronic States of Oxygen | Download To be verified |
| 52 | Lecture 52 : Electronic States and Transitions of Benzene | Download To be verified |
| 53 | Lecture 53 : Vibronic Coupling | Download To be verified |
| 54 | Lecture 54 : Electronic Spectrum of Benzene | Download To be verified |
| 55 | Lecture 55 : Basics of NMR Spectroscopy | Download To be verified |
| 56 | Lecture 56 : Basics of NMR Spectroscopy:II | Download To be verified |
| 57 | Lecture 57 : Spin Spin Coupling- AX systems | Download To be verified |
| 58 | Lecture 58 : Coupling in A2 systems | Download To be verified |
| 59 | Lecture 59 : Coupling in A2 systems (Continued) | Download To be verified |
| 60 | Lecture 60 : NMR: Spectra & Measurement, FT NMR 900 Pulses | Download To be verified |
| 61 | Lecture 61 : FT NMR 1800 Pulses & Relaxation Phenomenon | Download To be verified |
| 62 | Lecture 62 : Relaxation Phenomenon: Inversion Recovery | Download To be verified |
| 63 | Lecture 63 : No Splitting for A2 Systems | Download To be verified |
| Sl.No | Language | Book link |
|---|---|---|
| 1 | English | Not Available |
| 2 | Bengali | Not Available |
| 3 | Gujarati | Not Available |
| 4 | Hindi | Not Available |
| 5 | Kannada | Not Available |
| 6 | Malayalam | Not Available |
| 7 | Marathi | Not Available |
| 8 | Tamil | Not Available |
| 9 | Telugu | Not Available |