Modules / Lectures


Sl.No Chapter Name MP4 Download
1Lecture 01: Wave Equation, Maxwell’s equation, Plane waveDownload
2Lecture 02: EM wave in vacuum, Poynting vector, Maxwell’s equation in Dielectric Medium Download
3Lecture 03: Poynting Vector, Maxwell’s equation in dielectric medium ( Cont.)Download
4Lecture 04: Total Internal reflection, Evanescent waveDownload
5Lecture 05: Step-index fiber (SIF), Light guidance in SIFDownload
6Lecture 06: Light guidance in SIF (Skew Ray), V-Parameter, Discrete RayDownload
7Lecture 07: Cutoff wavelength, Fiber characteristicsDownload
8Lecture 08: Fiber Loss, dB units, DispersionDownload
9Lecture 09: Dispersion, Ray Path constantDownload
10Lecture 10: Ray path constant, Ray equationDownload
11Lecture 11: Ray equation (cont.)Download
12Lecture 12: Ray transit timeDownload
13Lecture 13: Ray transit time (Cont.)Download
14Lecture 14: Material dispersionDownload
15Lecture 15: Material dispersion (Cont.)Download
16Lecture 16: Material Dispersion (Contd.), Dispersion CoefficientDownload
17Lecture 17: Pulse BroadeningDownload
18Lecture 18: Pulse Propagation in Dispersive MediumDownload
19Lecture 19: Pulse Propagation in Dispersive Medium (Contd.)Download
20Lecture 20: Concept of ModesDownload
21Lecture 21: TE and TM ModesDownload
22Lecture 22: TE and TM Modes (Contd.)Download
23Lecture 23: Modes in Slab waveguideDownload
24Lecture 24: Modes in Slab waveguide (Contd.)Download
25Lecture 25: Modes in Slab waveguide (Contd.)Download
26Lecture 26: Modes in Slab Waveguide (Contd.)Download
27Lecture 27: Waveguide DispersionDownload
28Lecture 28: Physical Understanding of ModesDownload
29Lecture 29: Power Associated with a ModesDownload
30Lecture 30: Modes in an Optical FiberDownload
31Lecture 31: Modes in an optical fiber (Contd.)Download
32Lecture 32: Modes in an optical fiber (Contd.)Download
33Lecture 33: LPlm mode structureDownload
34Lecture 34: Optical fiber mode morphology (Contd.) Download
35Lecture 35: Effective area of mode, Fiber optics componentsDownload
36Lecture 36: Directional CouplerDownload
37Lecture 37: Coupled Mode TheoryDownload
38Lecture 38: Coupled Mode Theory (Contd.)Download
39Lecture 39: 3 dB power splitterDownload
40Lecture 40: Working principle of WDM couplerDownload
41Lecture 41: Fiber Bragg GratingDownload
42Lecture 42: Fiber Bragg Grating (Contd.)Download
43Lecture 43: Reflectivity CalculationDownload
44Lecture 44: Reflectivity Calculation (Contd.)Download
45Lecture 45: Reflectivity calculation of FBG (Cont)Download
46Lecture 46: Reflectivity calculation of FBG (Contd.)Download
47Lecture 47: Reflectivity calculation of FBG (Contd.)Download
48Lecture 48: Bandwidth of reflectivityDownload
49Lecture 49: Basic nonlinear opticsDownload
50Lecture 50: Frequency mixing, Optical Kerr effectDownload
51Lecture 51: Optical Kerr effect (Contd.)Download
52Lecture 52: Self Phase ModulationDownload
53Lecture 53: Self Phase Modulation (Contd.)Download
54Lecture 54: Self Phase Modulation (Contd.)Download
55Lecture 55: Pulse propagation in nonlinear waveguideDownload
56Lecture 56: Pulse propagation in nonlinear waveguide (Contd.)Download
57Lecture 57: Pulse propagation in nonlinear dispersive waveguideDownload
58Lecture 58: "Pulse propagation in nonlinear dispersive waveguide (Cont) "Download
59Lecture 59: Concept of optical solitonDownload
60Lecture 60: Concept of optical soliton (Contd.)Download

Sl.No Chapter Name English
1Lecture 01: Wave Equation, Maxwell’s equation, Plane waveDownload
To be verified
2Lecture 02: EM wave in vacuum, Poynting vector, Maxwell’s equation in Dielectric Medium Download
To be verified
3Lecture 03: Poynting Vector, Maxwell’s equation in dielectric medium ( Cont.)Download
To be verified
4Lecture 04: Total Internal reflection, Evanescent waveDownload
To be verified
5Lecture 05: Step-index fiber (SIF), Light guidance in SIFDownload
To be verified
6Lecture 06: Light guidance in SIF (Skew Ray), V-Parameter, Discrete RayDownload
To be verified
7Lecture 07: Cutoff wavelength, Fiber characteristicsDownload
To be verified
8Lecture 08: Fiber Loss, dB units, DispersionDownload
To be verified
9Lecture 09: Dispersion, Ray Path constantDownload
To be verified
10Lecture 10: Ray path constant, Ray equationDownload
To be verified
11Lecture 11: Ray equation (cont.)Download
To be verified
12Lecture 12: Ray transit timeDownload
To be verified
13Lecture 13: Ray transit time (Cont.)Download
To be verified
14Lecture 14: Material dispersionDownload
To be verified
15Lecture 15: Material dispersion (Cont.)Download
To be verified
16Lecture 16: Material Dispersion (Contd.), Dispersion CoefficientDownload
To be verified
17Lecture 17: Pulse BroadeningDownload
To be verified
18Lecture 18: Pulse Propagation in Dispersive MediumDownload
To be verified
19Lecture 19: Pulse Propagation in Dispersive Medium (Contd.)Download
To be verified
20Lecture 20: Concept of ModesDownload
To be verified
21Lecture 21: TE and TM ModesDownload
To be verified
22Lecture 22: TE and TM Modes (Contd.)Download
To be verified
23Lecture 23: Modes in Slab waveguideDownload
To be verified
24Lecture 24: Modes in Slab waveguide (Contd.)Download
To be verified
25Lecture 25: Modes in Slab waveguide (Contd.)Download
To be verified
26Lecture 26: Modes in Slab Waveguide (Contd.)Download
To be verified
27Lecture 27: Waveguide DispersionDownload
To be verified
28Lecture 28: Physical Understanding of ModesDownload
To be verified
29Lecture 29: Power Associated with a ModesDownload
To be verified
30Lecture 30: Modes in an Optical FiberDownload
To be verified
31Lecture 31: Modes in an optical fiber (Contd.)Download
To be verified
32Lecture 32: Modes in an optical fiber (Contd.)Download
To be verified
33Lecture 33: LPlm mode structureDownload
To be verified
34Lecture 34: Optical fiber mode morphology (Contd.) Download
To be verified
35Lecture 35: Effective area of mode, Fiber optics componentsDownload
To be verified
36Lecture 36: Directional CouplerDownload
To be verified
37Lecture 37: Coupled Mode TheoryDownload
To be verified
38Lecture 38: Coupled Mode Theory (Contd.)Download
To be verified
39Lecture 39: 3 dB power splitterDownload
To be verified
40Lecture 40: Working principle of WDM couplerDownload
To be verified
41Lecture 41: Fiber Bragg GratingDownload
To be verified
42Lecture 42: Fiber Bragg Grating (Contd.)Download
To be verified
43Lecture 43: Reflectivity CalculationDownload
To be verified
44Lecture 44: Reflectivity Calculation (Contd.)Download
To be verified
45Lecture 45: Reflectivity calculation of FBG (Cont)Download
To be verified
46Lecture 46: Reflectivity calculation of FBG (Contd.)Download
To be verified
47Lecture 47: Reflectivity calculation of FBG (Contd.)Download
To be verified
48Lecture 48: Bandwidth of reflectivityDownload
To be verified
49Lecture 49: Basic nonlinear opticsDownload
To be verified
50Lecture 50: Frequency mixing, Optical Kerr effectDownload
To be verified
51Lecture 51: Optical Kerr effect (Contd.)Download
To be verified
52Lecture 52: Self Phase ModulationDownload
To be verified
53Lecture 53: Self Phase Modulation (Contd.)Download
To be verified
54Lecture 54: Self Phase Modulation (Contd.)Download
To be verified
55Lecture 55: Pulse propagation in nonlinear waveguideDownload
To be verified
56Lecture 56: Pulse propagation in nonlinear waveguide (Contd.)Download
To be verified
57Lecture 57: Pulse propagation in nonlinear dispersive waveguideDownload
To be verified
58Lecture 58: "Pulse propagation in nonlinear dispersive waveguide (Cont) "Download
To be verified
59Lecture 59: Concept of optical solitonDownload
To be verified
60Lecture 60: Concept of optical soliton (Contd.)Download
To be verified


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