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Kalamassery, Kochi, Ernakulam
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Physics
PHYSICS FOR INFORMATION SCIENCE
PHYSICS FOR INFORMATION SCIENCE
Curriculum
4 Sections
25 Lessons
10 Weeks
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MODULE 1
Classical free electron theory, Energy bands- Classification of materials into conductor, semiconductor and insulator, Superconductivity ,Type I and Type II Super conductors
4
1.1
CLASSICAL FREE ELECTRON THEORY
1.2
Energy bands- Classification of materials into conductor, semiconductor and insulator
1.3
Superconductivity
1.4
FERMI-DIRAC DISTRIBUTION FUNCTION
MODULE 2 SEMICONDUCTOR DEVICES
Rectifiers, Half wave and Full wave, Zener Diode, Tunnel Diode, Semiconductor Laser, Photonic devices
7
2.1
Rectifiers
2.2
Zener Diode
2.3
Tunnel Diode
2.4
Semiconductor LASER
2.5
Photodetectors
2.6
Solar cell
2.7
LED
MODULE 3 : SEMICONDUCTOR PHYSICS
Intrinsic and extrinsic semiconductors, PN Junction diode formation , V-I characteristics
7
3.1
INTRINSIC SEMICONDUCTOR
3.2
DERIVATION OF DENSITY OF ELECTRONS IN CONDUCTION BAND OF AN INTRINSIC SEMICONDUCTOR
3.3
DERIVATION OF DENSITY OF HOLES IN VALENCE BAND OF AN INTRINSIC SEMICONDUCTOR
3.4
EXTRINSIC SEMICONDUCTOR
3.5
PN JUNCTION DIODE FORMATION AND V-I CHARACTERISTICS OF DIODE
3.6
ENERGY BAND DIAGRAM OF PN JUNCTION DIODE
3.7
DIODE EQUATION
MODULE 4 : QUANTUM MECHANICS
7
4.1
Introduction
4.2
Concept of uncertainty and conjugate observables (qualitative)
4.3
Uncertainty principle (statement only) ,Application of uncertainty principle
4.4
Wave function – properties – physical interpretation
4.5
Formulation of time-dependent and time independent Schrodinger equations
4.6
Derivation of energy eigenvalues and normalized wave function
4.7
Quantum Mechanical Tunnelling (Qualitative).
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