Modules / Lectures


Sl.No Chapter Name MP4 Download
1Lec 01 Born-Oppenheimer approximationDownload
2Lec 02 Self-consistent field (SCF) methodDownload
3Lec 03 Simple MO Theory of Hydrogen MoleculeDownload
4Lec 04 Bloch’s theoremDownload
5Lec 05 Tight binding approximationDownload
6Lec 06 Energy band theory - 1Download
7Lec 07 Energy band theory - 2Download
8Lec 08 Density of statesDownload
9Lec 09 Energy band theory – 3Download
10Lec 10 Energy band theory – 4Download
11Lec 11 Drude’s classical free electron model – 1Download
12Lec 12 Drude’s classical free electron model – 2Download
13Lec 13 Drude’s classical free electron model – 3Download
14Lec 14 Drude’s classical free electron model – 4Download
15Lec 15 Sommerfeld’s quantum free electron modelDownload
16Lec 16 Specific heat of Fermi gasDownload
17Lec 17 Energy dispersion relation in a periodic potential – 1Download
18Lec 18 Energy dispersion relation in a periodic potential – 2Download
19Lec 19 Brief overview of space groups and constant energy surface in 2DDownload
20Lec 20 Energy band and effective massDownload
21Lec 21 Effective massDownload
22Lec 22 k ⃗⋅p ⃗perturbation methodDownload
23Lec 23 Revisiting Bloch’s theorem and tight binding functions.Download
24Lec 24 Symmetries in crystal Hamiltonian - 1Download
25Lec 25 Symmetries in crystal Hamilonian - 2Download
26Lec 26 Tight binding method - 1Download
27Lec 27 Tight binding method - 2Download
28Lec 28 Tight binding method - 3Download
29Lec 29 Plane wave methodDownload
30Lec 30 Pseudo potential methodDownload
31Lec 31 Cellular method of energy band calculationDownload
32Lec 32 Muffin tin potential and APW functionsDownload
33Lec 33 Augmented plane wave method of energy band calculation-1Download
34Lec 34 Augmented plane wave method of energy band calculation-2Download
35Lec 35 Green’s function method of energy band calculation – 1Download
36Lec 36 Green’s function method of energy band calculation – 2Download
37Lec 37 Cyclotron resonance techniqueDownload
38Lec 38 De Haas-van Alphen effectDownload
39Lec 39 De Haas-van Alphen effect conclusion.Introduction to point impurity effect on band structure.Download
40Lec 40 Point impurity in crystalDownload

Sl.No Chapter Name English
1Lec 01 Born-Oppenheimer approximationDownload
Verified
2Lec 02 Self-consistent field (SCF) methodDownload
Verified
3Lec 03 Simple MO Theory of Hydrogen MoleculeDownload
Verified
4Lec 04 Bloch’s theoremDownload
Verified
5Lec 05 Tight binding approximationDownload
Verified
6Lec 06 Energy band theory - 1PDF unavailable
7Lec 07 Energy band theory - 2PDF unavailable
8Lec 08 Density of statesPDF unavailable
9Lec 09 Energy band theory – 3PDF unavailable
10Lec 10 Energy band theory – 4PDF unavailable
11Lec 11 Drude’s classical free electron model – 1PDF unavailable
12Lec 12 Drude’s classical free electron model – 2PDF unavailable
13Lec 13 Drude’s classical free electron model – 3PDF unavailable
14Lec 14 Drude’s classical free electron model – 4PDF unavailable
15Lec 15 Sommerfeld’s quantum free electron modelPDF unavailable
16Lec 16 Specific heat of Fermi gasPDF unavailable
17Lec 17 Energy dispersion relation in a periodic potential – 1PDF unavailable
18Lec 18 Energy dispersion relation in a periodic potential – 2PDF unavailable
19Lec 19 Brief overview of space groups and constant energy surface in 2DPDF unavailable
20Lec 20 Energy band and effective massPDF unavailable
21Lec 21 Effective massPDF unavailable
22Lec 22 k ⃗⋅p ⃗perturbation methodPDF unavailable
23Lec 23 Revisiting Bloch’s theorem and tight binding functions.PDF unavailable
24Lec 24 Symmetries in crystal Hamiltonian - 1PDF unavailable
25Lec 25 Symmetries in crystal Hamilonian - 2PDF unavailable
26Lec 26 Tight binding method - 1PDF unavailable
27Lec 27 Tight binding method - 2PDF unavailable
28Lec 28 Tight binding method - 3PDF unavailable
29Lec 29 Plane wave methodPDF unavailable
30Lec 30 Pseudo potential methodPDF unavailable
31Lec 31 Cellular method of energy band calculationPDF unavailable
32Lec 32 Muffin tin potential and APW functionsPDF unavailable
33Lec 33 Augmented plane wave method of energy band calculation-1PDF unavailable
34Lec 34 Augmented plane wave method of energy band calculation-2PDF unavailable
35Lec 35 Green’s function method of energy band calculation – 1PDF unavailable
36Lec 36 Green’s function method of energy band calculation – 2PDF unavailable
37Lec 37 Cyclotron resonance techniquePDF unavailable
38Lec 38 De Haas-van Alphen effectPDF unavailable
39Lec 39 De Haas-van Alphen effect conclusion.Introduction to point impurity effect on band structure.PDF unavailable
40Lec 40 Point impurity in crystalPDF unavailable


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