Applied Physics – R18
October 10, 2020 2020-11-18 16:28Applied Physics – R18
Applied Physics – R18
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Unit One
Quantum Mechanics
- 1. Introduction to Quantum Physics
- 2. Black Body Radiation
- 3. Plank’s Radiation Law
- 4. Photoelectric Effect
- 5. Compton Effect
- 6. Dual Nature of Radiation
- 7. Debroglie Concept
- 8. Davisson Germer Experiment
- 9. Heisenberg Uncertainty Principle
- 10. Schrodinger’s Wave Equation
- 11. Bohr’s Interpretation
- 12. Particle in 1-D Potential Box
- 13. Numerical Problems
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Unit Two
Semiconductor Physics
- 1. Introduction to Semi-Conductors
- 2. Intrinsic Semiconductors – Carrier Concentration
- 3. Intrinsic Semiconductors – Fermi Level and Conductivity
- 4. Photo-Electric Effect
- 5. Compton Effect
- 6. Dual Nature of Radiation
- 7. Debroglie Concept
- 8. Davisson Germer Experiment
- 9. Heisenberg’s Uncertainty Principle
- 10. Schrodinger Wave Equation
- 11. Bohr’s Interpretation
- 12. Particle in 1-D Potential Box
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Unit Three
Optoelectronics
- 1. Radiative and Non-Radiative Recombination Mechanisms in semiconductors
- 2. Basics of LED
- 3. LED: Light Extraction and design issues
- 4. Visible LED: Photometry and colorimetry
- 5. Solar Cell
- 6. Solar Cell – 2 ( Contd. )
- 7. Solar Cell: Shockley Quiesser Limit
- 8. Basics of Photodetectors
- 9. Photodetectors: Figures of merit and types of devices
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Unit Four
- 1. Laser – Interaction Between Matter and Radiation
- 2. Einstein Co-efficients
- 3. Characteristics of Laser
- 4. Components of Laser
- 5. Ruby Laser
- 6. He-Ne Laser
- 7. Co2 Laser
- 8. Semi Conductor Lasers
- 9. Applications of Lasers
- 10. Fiber Optics – Introduction
- 11. Acceptance Angle & NA
- 12. Types of Fibers
- 13. Signal Propogation Through Optical Fibers
- 14. Signal Attenuation in Fibers
- 15. Applications and Advantages of Optical Fibers
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Unit Five
- 1. Fundamental Laws of E&M
- 2. Maxwell’s Equations
- 3. Dielectric Definitions
- 4. Types of Polarisation
- 5. Internal Field – Epstein’s Model
- 6. Internal Field – Lorentz Model
- 7. Clausius – Mosotti Equation
- 8. Pizeoelectricity
- 9. Ferroelectricity
- 10. Magnetic materials – Definitions
- 11. Classification of Magnetic Materials
- 12. Antiferro and Ferrimagnetic Materials
- 13. Hysterics