CS1003 Applied Physics SYLLABUS AND SUBJECT NOTES LECTURE NOTES FOR jntu UNIVERSITY ALL UNITS
CS1003 Applied Physics SYLLABUS AND SUBJECT NOTES LECTURE NOTES FOR jntu UNIVERSITY ALL UNITS
CS1003-Applied Physics
(Common for EEE, ECE, EIE, EcontE, CSE, CSIT & BME)
Unit-I Click Here To Download
Chapter 1
Free electron gas model; Free electron gas in one dimensional box; energy levels and density of states; Thermionic emission; Schottky emission; Field emission and Photo electric emission ; Hall effect
Chapter 2
Periodic lattice and Bloch’s theorem; Kronig Penny model; Velocity – Effective mass; distinction between metals, insulators, and semiconductors; Density of states
Unit – II Click Here To Download
Chapter 3
Dielectrics; Local field; Claussius – Mossoti equation; Sources of Polarizzability (dipolar, iornic & electronic) – frequency dependence; total polarizability; measurement of dielectric constant; piezoelectricity; ferroelectricity
Chapter 4
Magnetic materials; diamagnetism; classical theory – quantum theory (qualitative); Paramagnetism; Classical theory – Quantum Theory (qualitative); colling by adiabatic demagnetization; ferromagnetism; weiss theory; Hysteresis; domains; Bloch wall; antiferromagnetism – molecular field theory; ferrimagnetism – molecular field theory
Unit – III Click Here To Download
Chapter 5
Fermi – Dirae statistics; electron and hole densities; overall perspective; intrinsic semiconductors; charge neutrality; recombination; Schockley, Read and Hall theory; Surface recombination and emission.
Chapter 6
Semiconductors; nonequilibrium; continuity equation; carrier scattering and mobility;drift current and conductivity; diffusion currents and Einsteim’s relations; quassi Fermi level; Brand diagram in equilibrium and non-equilibrium
Chapter 7
Thermistors and piezo resistors; phosphorescence and fluorescence; Gunn effect, Hall effect and Thermoelectric effect.
Unit – IV Click Here To Download
Chapter – 8
Radiative transistors – LEDs; Semiconductor laser and its characteristics
Unit – V Click Here To Download
Chapter-9
Photoconductors; Photodiodes; avalance photodiodie; phototransistors.
Chapter-10
Solar radiation and conversion efficiency; PN junction solar cells – beterojunction, interface, and thin film solar cell.
Unit – VI Click Here To Download
Chapter 11
Super conductivity; Experimental facts and theoretical explanations
Chapter 12
IC Fabrication – Planar processes – fabrication of BJT, FET & CMOS devices – Monolothic diodes – contacts IC resistors and capacitors – IC packaging – Characteristic of IC Components
Reference Books
Solid State Physics, by Charles Kittel, 7 th edition
Solid State Physics by AJ Dekker
Physics of Semi Conductor Devices by M Shur PHI Publication
Physics of Semi Conductor Devices by DK Roy, Orient Longman
Introduction to Solids – Azaroff, TMH Edition
CS1003 Applied Physics SYLLABUS AND SUBJECT NOTES LECTURE NOTES FOR jntu UNIVERSITY ALL UNITS
CS1003-Applied Physics
(Common for EEE, ECE, EIE, EcontE, CSE, CSIT & BME)
Unit-I Click Here To Download
Chapter 1
Free electron gas model; Free electron gas in one dimensional box; energy levels and density of states; Thermionic emission; Schottky emission; Field emission and Photo electric emission ; Hall effect
Chapter 2
Periodic lattice and Bloch’s theorem; Kronig Penny model; Velocity – Effective mass; distinction between metals, insulators, and semiconductors; Density of states
Unit – II Click Here To Download
Chapter 3
Dielectrics; Local field; Claussius – Mossoti equation; Sources of Polarizzability (dipolar, iornic & electronic) – frequency dependence; total polarizability; measurement of dielectric constant; piezoelectricity; ferroelectricity
Chapter 4
Magnetic materials; diamagnetism; classical theory – quantum theory (qualitative); Paramagnetism; Classical theory – Quantum Theory (qualitative); colling by adiabatic demagnetization; ferromagnetism; weiss theory; Hysteresis; domains; Bloch wall; antiferromagnetism – molecular field theory; ferrimagnetism – molecular field theory
Unit – III Click Here To Download
Chapter 5
Fermi – Dirae statistics; electron and hole densities; overall perspective; intrinsic semiconductors; charge neutrality; recombination; Schockley, Read and Hall theory; Surface recombination and emission.
Chapter 6
Semiconductors; nonequilibrium; continuity equation; carrier scattering and mobility;drift current and conductivity; diffusion currents and Einsteim’s relations; quassi Fermi level; Brand diagram in equilibrium and non-equilibrium
Chapter 7
Thermistors and piezo resistors; phosphorescence and fluorescence; Gunn effect, Hall effect and Thermoelectric effect.
Unit – IV Click Here To Download
Chapter – 8
Radiative transistors – LEDs; Semiconductor laser and its characteristics
Unit – V Click Here To Download
Chapter-9
Photoconductors; Photodiodes; avalance photodiodie; phototransistors.
Chapter-10
Solar radiation and conversion efficiency; PN junction solar cells – beterojunction, interface, and thin film solar cell.
Unit – VI Click Here To Download
Chapter 11
Super conductivity; Experimental facts and theoretical explanations
Chapter 12
IC Fabrication – Planar processes – fabrication of BJT, FET & CMOS devices – Monolothic diodes – contacts IC resistors and capacitors – IC packaging – Characteristic of IC Components
Reference Books
Solid State Physics, by Charles Kittel, 7 th edition
Solid State Physics by AJ Dekker
Physics of Semi Conductor Devices by M Shur PHI Publication
Physics of Semi Conductor Devices by DK Roy, Orient Longman
Introduction to Solids – Azaroff, TMH Edition
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