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Gujarat Technological University, Gujarat
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Physics
Gujarat Technological University, Gujarat, Electronics and Communication engineering Semester 1, Physics Syllabus
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Unit - 1 Electronic Materials
MODULE 1
ELECTRONIC MATERIALS
1.1 FREE ELECTRON THEORY
1.2 DENSITY OF STATES
1.3 ENERGY BAND DIAGRAMS
1.4 KRONIGPENNY MODEL TO INTRODUCE ORIGIN OF BAND
1.5 DIRECT AND INDIRECT BANDGAPS
1.6 TYPES OF ELECTRONIC MATERIALS METALS SEMICONDUCTORS
1.7 DENSITY OF STATES OCCUPATION PROBABILITY
1.8 FERMI LEVEL
1.9 EFFECTIVE MASS
1.10 PHONONS
Unit - 2 Semiconductors
Module 2
Semiconductors
2.1 Intrinsic and extrinsic semiconductors
2.2 Dependence of Fermi level on carrierconcentration and temperature equilibrium carrier statistics
2.3 Carrier generation and recombineation Carrier transport diffusion and drift pn junction
2.4Metalsemiconductor junction Ohmic and Schottky Semiconductor materials of interest for optoelectronic devices
Unit - 3 Light-Semiconductor Interaction
MODULE 3
LightSemiconductor Interaction
3.1 Optical transitions in bulk semiconductors absorption spontaneous emission and stimulated emission
3.2 Joint density of states
3.3 Density of states for photons
3.4 Transition rates Fermis golden rule
3.5 Optical loss and gain Photovoltaic effect Exciton
3.6 Drude model.
Unit - 4 Measurements
Module 4
Measurements
4.1 Fourpoint probe and Van Der Pauw measurements for carrier density
4.2 Resistivity and hall mobility
4.3 Hotpoint probe measurement capacitancevoltage measurements
4.4 Parameter extraction from diode IV characteristics DLTS
4.5 Band gap by UVVis spectroscopy absorptiontransmission
Unit - 5 Superconductivity
Module 5
Superconductivity
5.1 Introduction of Superconductivity
5.2 Superconductivity Properties of superconductor
5.3 Effect of Magnetic Field on Ideal Conductor and Superconductor
5.4 Meissner effect
5.5 Types of Superconductors
5.6 Parameter Effecting Superconductivity
5.7 Penetration depth Magnetic field
5.8 Josephsons junction and its application
5.9 Mechanism of Superconductivity BCS Theory
5.10 Application of superconductors
5.1 Introduction of Superconductivity
5.2 Superconductivity
5.3 Effect of Magnetic Field on Ideal Conductor and Superconductor
5.4 The Meissner effect
5.5 Types of Superconductors
5.6 Parameter Effecting Superconductivity
5.7 Penetration depth
5.8 Josephson Effect
5.9 BCS Theory
5.10 Applications of Superconductors
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Other Subjects of Semester-1
Chemistry
Mathematics - i
Basic electrical engineering
Basic mechanical engineering
Engineering graphics & design
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