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Sl.No Chapter Name MP4 Download
11.1 Types of SemiconductorsDownload
21.2 Classical Vs Quantum MechanicsDownload
31.3 Electrons in infinite and finite 1D potential wellDownload
41.4 3D potential well model of atom and Bohr's modelDownload
51.5 Covalent bonds and inter-atomic interactions in SiliconDownload
61.6 Energy band formationDownload
71.7 Electron hole pair generationDownload
81.8 Direct and Indirect bandgap semiconductorsDownload
91.9 Energy levels in infinite and finite potential wells (short demo)Download
102.1 Effective mass in SemiconductorsDownload
112.2 Intrinsic carrier densityDownload
122.3 Doping and extrinsic semiconductorsDownload
132.4 Fermi level in extrinsic semiconductorsDownload
142.5 Temperature dependence of Fermi levelDownload
152.6 Temperature dependence of Fermi levelDownload
162.7 Charge neutrality relationshipDownload
172.8 Drift current and energy band representation of kinetic energy of carriersDownload
183.1 Semiconductor bands in a electric fieldDownload
193.2 Diffusion currentDownload
203.3 Non-uniform dopingDownload
213.4 Equilibrium Vs Nonequilibrium carrier responseDownload
223.5 Minority carrier diffusion equation (MCDE) - Example problemsDownload
233.6 Quasi Fermi level in nonequilibrium conditionsDownload
243.7 Quasi Fermi level and minority carrier diffusion lengthDownload
253.8 Semiconductor device fabricationDownload
264.1 PN Junctions - An introductionDownload
274.2 PN Junction electrostaticsDownload
284.3 Energy band diagram of PN junctionDownload
294.4 Depletion width and peak electric fieldDownload
304.5 PN junction electrostatics - examplesDownload
314.6 Demo of PN Junction Lab on NanohubDownload
325.1 Forward and reverse biased PN junctionsDownload
335.2 Minority carrier injection in PN junctionsDownload
345.3 Current in forward biased PN junctionDownload
355.4 Current in reverse biased PN junctionDownload
365.5 Depletion capacitance in PN junctionDownload
375.6 Non-idealities in PN junction diodeDownload
385.7 Nanohub Demo - PN Junction with applied biasDownload
396.1 Schottky barrier in metal-semiconductor junctionDownload
406.2 Current flow across a Schottky barrierDownload
416.3 Ohmic vs rectifying contactsDownload
426.4 An Ideal MOS CapacitorDownload
436.5 Operating regimes of a MOSCAPDownload
446.6 Simplified band diagrams of accumulation and depletion in MOSCAPDownload
456.7 Inversion in a MOSCAPDownload
467.1 NMOSCAP in accumulation modeDownload
477.2 NMOSCAP in depletion modeDownload
487.3 NMOSCAP in inversion modeDownload
497.4 Exact solution vs delta-depletion approximationDownload
507.5 Threshold voltage in a MOSCAPDownload
517.6 Nanohub Demo - MOSCAP toolDownload
528.1 Non-ideal MOS CapacitorDownload
538.2 MOSCAP Capacitance-Voltage (CV) CharacteristicsDownload
548.3 Example problems with MOSCAPsDownload
558.4 Impact of doping, oxide thickness and temperature on CVDownload
568.5 Nanohub Demo - MOS CVDownload
579.1 Introduction to MOSFETDownload
589.2 Operating modes of a MOSFETDownload
599.3 IV Characteristics of a long channel MOSFETDownload
609.4 Example problems with MOSFETsDownload
619.5 MOSFET device metricsDownload
629.6 CMOS TechnologyDownload
6310.1 MOSFET Scaling and technology nodesDownload
6410.2 Limits of scalingDownload
6510.3 Current characteristics of a short channel MOSFETDownload
6610.4 Threshold voltage characteristics of short channel MOSFETDownload
6710.5 MOSFETs in the 21st centuryDownload
6811.1 Optical absorption and bandgapDownload
6911.2 Introduction to solar cellsDownload
7011.3 Efficiency of a solar cellDownload
7111.4 Types of photodetectorsDownload
7211.5 PIN and avalanche PhotodectectorsDownload
7311.6 Photodetector metricsDownload
7412.1 Radiative absoption and emission processesDownload
7512.2 Materials for optoelectronic devicesDownload
7612.3 Operation of a light emitting diode (LED)Download
7712.4 LED emission spectrumDownload
7812.5 Stimulated emission and lasingDownload

Sl.No Chapter Name English
11.1 Types of SemiconductorsDownload
Verified
21.2 Classical Vs Quantum MechanicsPDF unavailable
31.3 Electrons in infinite and finite 1D potential wellPDF unavailable
41.4 3D potential well model of atom and Bohr's modelPDF unavailable
51.5 Covalent bonds and inter-atomic interactions in SiliconPDF unavailable
61.6 Energy band formationPDF unavailable
71.7 Electron hole pair generationPDF unavailable
81.8 Direct and Indirect bandgap semiconductorsPDF unavailable
91.9 Energy levels in infinite and finite potential wells (short demo)PDF unavailable
102.1 Effective mass in SemiconductorsPDF unavailable
112.2 Intrinsic carrier densityPDF unavailable
122.3 Doping and extrinsic semiconductorsPDF unavailable
132.4 Fermi level in extrinsic semiconductorsPDF unavailable
142.5 Temperature dependence of Fermi levelPDF unavailable
152.6 Temperature dependence of Fermi levelPDF unavailable
162.7 Charge neutrality relationshipPDF unavailable
172.8 Drift current and energy band representation of kinetic energy of carriersPDF unavailable
183.1 Semiconductor bands in a electric fieldPDF unavailable
193.2 Diffusion currentPDF unavailable
203.3 Non-uniform dopingPDF unavailable
213.4 Equilibrium Vs Nonequilibrium carrier responsePDF unavailable
223.5 Minority carrier diffusion equation (MCDE) - Example problemsPDF unavailable
233.6 Quasi Fermi level in nonequilibrium conditionsPDF unavailable
243.7 Quasi Fermi level and minority carrier diffusion lengthPDF unavailable
253.8 Semiconductor device fabricationPDF unavailable
264.1 PN Junctions - An introductionPDF unavailable
274.2 PN Junction electrostaticsPDF unavailable
284.3 Energy band diagram of PN junctionPDF unavailable
294.4 Depletion width and peak electric fieldPDF unavailable
304.5 PN junction electrostatics - examplesPDF unavailable
314.6 Demo of PN Junction Lab on NanohubPDF unavailable
325.1 Forward and reverse biased PN junctionsPDF unavailable
335.2 Minority carrier injection in PN junctionsPDF unavailable
345.3 Current in forward biased PN junctionPDF unavailable
355.4 Current in reverse biased PN junctionPDF unavailable
365.5 Depletion capacitance in PN junctionPDF unavailable
375.6 Non-idealities in PN junction diodePDF unavailable
385.7 Nanohub Demo - PN Junction with applied biasPDF unavailable
396.1 Schottky barrier in metal-semiconductor junctionPDF unavailable
406.2 Current flow across a Schottky barrierPDF unavailable
416.3 Ohmic vs rectifying contactsPDF unavailable
426.4 An Ideal MOS CapacitorPDF unavailable
436.5 Operating regimes of a MOSCAPPDF unavailable
446.6 Simplified band diagrams of accumulation and depletion in MOSCAPPDF unavailable
456.7 Inversion in a MOSCAPPDF unavailable
467.1 NMOSCAP in accumulation modePDF unavailable
477.2 NMOSCAP in depletion modePDF unavailable
487.3 NMOSCAP in inversion modePDF unavailable
497.4 Exact solution vs delta-depletion approximationPDF unavailable
507.5 Threshold voltage in a MOSCAPPDF unavailable
517.6 Nanohub Demo - MOSCAP toolPDF unavailable
528.1 Non-ideal MOS CapacitorPDF unavailable
538.2 MOSCAP Capacitance-Voltage (CV) CharacteristicsPDF unavailable
548.3 Example problems with MOSCAPsPDF unavailable
558.4 Impact of doping, oxide thickness and temperature on CVPDF unavailable
568.5 Nanohub Demo - MOS CVPDF unavailable
579.1 Introduction to MOSFETPDF unavailable
589.2 Operating modes of a MOSFETPDF unavailable
599.3 IV Characteristics of a long channel MOSFETPDF unavailable
609.4 Example problems with MOSFETsPDF unavailable
619.5 MOSFET device metricsPDF unavailable
629.6 CMOS TechnologyPDF unavailable
6310.1 MOSFET Scaling and technology nodesPDF unavailable
6410.2 Limits of scalingPDF unavailable
6510.3 Current characteristics of a short channel MOSFETPDF unavailable
6610.4 Threshold voltage characteristics of short channel MOSFETPDF unavailable
6710.5 MOSFETs in the 21st centuryPDF unavailable
6811.1 Optical absorption and bandgapPDF unavailable
6911.2 Introduction to solar cellsPDF unavailable
7011.3 Efficiency of a solar cellPDF unavailable
7111.4 Types of photodetectorsPDF unavailable
7211.5 PIN and avalanche PhotodectectorsPDF unavailable
7311.6 Photodetector metricsPDF unavailable
7412.1 Radiative absoption and emission processesPDF unavailable
7512.2 Materials for optoelectronic devicesPDF unavailable
7612.3 Operation of a light emitting diode (LED)PDF unavailable
7712.4 LED emission spectrumPDF unavailable
7812.5 Stimulated emission and lasingPDF unavailable


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