Modules / Lectures


Sl.No Chapter Name MP4 Download
1Mod 01 Lec 01 Introduction to TDSEDownload
2Mod 01 Lec 02 Solution to TDSE, Stationary and Non-stationary StatesDownload
3Mod 01 Lec 03 Electron and Vibrational Superposition StatesDownload
4Mod 01 Lec 04 Optical Analogy to Quantum SuperpositionDownload
5Mod 01 Lec 05 Introdution to Python ProgrammingDownload
6Mod 01 Lec 06 Simple Computation with Python ProgrammingDownload
7Mod 01 Lec 07 Plotting Graph with Python ProgrammingDownload
8Mod 02 Lec 08 Meaning of Probability DensityDownload
9Mod 02 Lec 09 Time Evolution of Normalization ConstantDownload
10Mod 02 Lec 10 Expectation Value and its Time EvolutionDownload
11Mod 02 Lec 11 Equation of ContinuityDownload
12Mod 02 Lec 12 Bohmian MechanicsDownload
13Mod 02 Lec 13 Bohmian Mechanics and Standard InterpretationDownload
14Mod 02 Lec 14 Grid Representation of WavefunctionDownload
15Mod 02 Lec 15 Normalizing the Discretized Wavefunction and Finding Expectation ValueDownload
16Mod 03 Lec 16 Plane Matter Wave and WavepacketDownload
17Mod 03 Lec 17 WavepacketDownload
18Mod 03 Lec 18 Stationary Gaussian WavepacketDownload
19Mod 03 Lec 19 Travelling Gaussian WavepacketDownload
20Mod 03 Lec 20 General Form of the Gaussian WavepacketDownload
21Mod 03 Lec 21 Fourer Transform of a wavefunctionDownload
22Mod 03 Lec 22 x-grid to k-gridDownload
23Mod 03 Lec 23 Fourier Transform using fftDownload
24Mod 04 Lec 24 Hilbert Space and Its PropertiesDownload
25Mod 04 Lec 25 Basis Set Approach to Quantum MechanicsDownload
26Mod 04 Lec 26 Matrix AlgebraDownload
27Mod 04 Lec 27 Eigenvalue and EigenfunctionDownload
28Mod 04 Lec 28 Matrix Representation of OperatorsDownload
29Mod 04 Lec 29 Matrix Representation of Hamiltonian OperatorDownload
30Mod 04 Lec 30 Python Tutorial 4 (Eigenvalue and Eigenfunction)Download
31Mod 04 Lec 31 Python Tutorial 4 (Eigenvalue and Eigenfunction)Download
32Mod 05 Lec 32 Time Evolution OperatorDownload
33Mod 05 Lec 33 Split Operator MethoDownload
34Mod 05 Lec 34 Numerical Implementation of Split Operator MethodDownload
35Mod 05 Lec 35 Wavepacket Dynamics under zero interaction potentialDownload
36Mod 05 Lec 36 Wavepacket Dynamics under zero interaction potential continuedDownload
37Mod 05 Lec 37 Wavepacket Dynamics under linear interaction potentialDownload
38Mod 06 Lec 38 Quantum Adiabatic TheoryDownload
39Mod 06 Lec 39 Formal Derivation of Quantum Adiabat...Download
40Mod 06 Lec 40 Geometric Phase and Dynamical PhaseDownload
41Mod 07 Lec 41 Nonradiative Transition part 1Download
42Mod 07 Lec 42 Nonradiative Transition part 2Download
43Mod 07 Lec 43 Nonradiative TransitionDownload
44Mod 08 Lec 44 Quantum Dissipative DynamicsDownload
45Mod 08 Lec 45 Quantum Dissipative DynamicsDownload
46Mod 08 Lec 46 Formal Derivation of Dissipative Quantum DynamicsDownload
47Mod 09 Lec 47 Classical Description of LightDownload
48Mod 09 Lec 48 Vector and Scalar PotentialDownload
49Mod 09 Lec 49 Vector and Scalar PotentialDownload
50Mod 10 Lec 50 Master Equation of LightDownload
51Mod 10 Lec 51 Hamiltonian for Light-Atom InteractionDownload
52Mod 10 Lec 52 Hamiltonian for Light-Atom InteractionDownload
53Mod 11 Lec 53 Absorption and Stimulated EmissionDownload
54Mod 11 Lec 54 Absorption and Stimulated EmissionDownload
55Mod 12 Lec 55 Time Correlation FunctionDownload
56Mod 12 Lec 56 Fourier Transform of Time Correlation FunctionDownload

Sl.No Chapter Name English
1Mod 01 Lec 01 Introduction to TDSEPDF unavailable
2Mod 01 Lec 02 Solution to TDSE, Stationary and Non-stationary StatesPDF unavailable
3Mod 01 Lec 03 Electron and Vibrational Superposition StatesPDF unavailable
4Mod 01 Lec 04 Optical Analogy to Quantum SuperpositionPDF unavailable
5Mod 01 Lec 05 Introdution to Python ProgrammingPDF unavailable
6Mod 01 Lec 06 Simple Computation with Python ProgrammingPDF unavailable
7Mod 01 Lec 07 Plotting Graph with Python ProgrammingPDF unavailable
8Mod 02 Lec 08 Meaning of Probability DensityPDF unavailable
9Mod 02 Lec 09 Time Evolution of Normalization ConstantPDF unavailable
10Mod 02 Lec 10 Expectation Value and its Time EvolutionPDF unavailable
11Mod 02 Lec 11 Equation of ContinuityPDF unavailable
12Mod 02 Lec 12 Bohmian MechanicsPDF unavailable
13Mod 02 Lec 13 Bohmian Mechanics and Standard InterpretationPDF unavailable
14Mod 02 Lec 14 Grid Representation of WavefunctionPDF unavailable
15Mod 02 Lec 15 Normalizing the Discretized Wavefunction and Finding Expectation ValuePDF unavailable
16Mod 03 Lec 16 Plane Matter Wave and WavepacketPDF unavailable
17Mod 03 Lec 17 WavepacketPDF unavailable
18Mod 03 Lec 18 Stationary Gaussian WavepacketPDF unavailable
19Mod 03 Lec 19 Travelling Gaussian WavepacketPDF unavailable
20Mod 03 Lec 20 General Form of the Gaussian WavepacketPDF unavailable
21Mod 03 Lec 21 Fourer Transform of a wavefunctionPDF unavailable
22Mod 03 Lec 22 x-grid to k-gridPDF unavailable
23Mod 03 Lec 23 Fourier Transform using fftPDF unavailable
24Mod 04 Lec 24 Hilbert Space and Its PropertiesPDF unavailable
25Mod 04 Lec 25 Basis Set Approach to Quantum MechanicsPDF unavailable
26Mod 04 Lec 26 Matrix AlgebraPDF unavailable
27Mod 04 Lec 27 Eigenvalue and EigenfunctionPDF unavailable
28Mod 04 Lec 28 Matrix Representation of OperatorsPDF unavailable
29Mod 04 Lec 29 Matrix Representation of Hamiltonian OperatorPDF unavailable
30Mod 04 Lec 30 Python Tutorial 4 (Eigenvalue and Eigenfunction)PDF unavailable
31Mod 04 Lec 31 Python Tutorial 4 (Eigenvalue and Eigenfunction)PDF unavailable
32Mod 05 Lec 32 Time Evolution OperatorPDF unavailable
33Mod 05 Lec 33 Split Operator MethoPDF unavailable
34Mod 05 Lec 34 Numerical Implementation of Split Operator MethodPDF unavailable
35Mod 05 Lec 35 Wavepacket Dynamics under zero interaction potentialPDF unavailable
36Mod 05 Lec 36 Wavepacket Dynamics under zero interaction potential continuedPDF unavailable
37Mod 05 Lec 37 Wavepacket Dynamics under linear interaction potentialPDF unavailable
38Mod 06 Lec 38 Quantum Adiabatic TheoryPDF unavailable
39Mod 06 Lec 39 Formal Derivation of Quantum Adiabat...PDF unavailable
40Mod 06 Lec 40 Geometric Phase and Dynamical PhasePDF unavailable
41Mod 07 Lec 41 Nonradiative Transition part 1PDF unavailable
42Mod 07 Lec 42 Nonradiative Transition part 2PDF unavailable
43Mod 07 Lec 43 Nonradiative TransitionPDF unavailable
44Mod 08 Lec 44 Quantum Dissipative DynamicsPDF unavailable
45Mod 08 Lec 45 Quantum Dissipative DynamicsPDF unavailable
46Mod 08 Lec 46 Formal Derivation of Dissipative Quantum DynamicsPDF unavailable
47Mod 09 Lec 47 Classical Description of LightPDF unavailable
48Mod 09 Lec 48 Vector and Scalar PotentialPDF unavailable
49Mod 09 Lec 49 Vector and Scalar PotentialPDF unavailable
50Mod 10 Lec 50 Master Equation of LightPDF unavailable
51Mod 10 Lec 51 Hamiltonian for Light-Atom InteractionPDF unavailable
52Mod 10 Lec 52 Hamiltonian for Light-Atom InteractionPDF unavailable
53Mod 11 Lec 53 Absorption and Stimulated EmissionPDF unavailable
54Mod 11 Lec 54 Absorption and Stimulated EmissionPDF unavailable
55Mod 12 Lec 55 Time Correlation FunctionPDF unavailable
56Mod 12 Lec 56 Fourier Transform of Time Correlation FunctionPDF unavailable


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2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
9TeluguNot Available