PY07047 - Applied Physics 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 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
Comments
Post a Comment