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Course code :PHY108 Course Title :Applied physics II LTP: 3 0 0 Credit :3.0

Lecture #0. Course code :PHY108 Course Title :Applied physics II LTP: 3 0 0 Credit :3.0. Text Book APPLIED PHYSICS by ARTHUR BEISER, AJOY GHATAK, S.C. GARG, MC GRAW HILL, 1st Edition, (2013) Reference Books

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Course code :PHY108 Course Title :Applied physics II LTP: 3 0 0 Credit :3.0

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  1. Lecture #0 Course code :PHY108 Course Title :Applied physics II LTP: 3 0 0 Credit :3.0

  2. Text Book APPLIED PHYSICS by ARTHUR BEISER, AJOY GHATAK, S.C. GARG, MC GRAW HILL, 1st Edition, (2013) Reference Books 1.SOLID STATE ELECTRONIC DEVICES by BEN G. STREETMAN, SANJAY BANERJEE, PHI LEARNING PRIVATE LIMITED, 6th Edition, (2009) 2.LASERS AND NON LINEAR OPTICS by B. B. LAUD, NEW AGE INTERNATIONAL LTD,INDIA, 3rd Edition, (2011) 3.QUANTUM PHYSICS OF ATOMS, MOLECULES, SOLIDS, NUCLEI AND PARTICLES by ROBERT EISBERG, ROBERT RESNICK, WILEY, 2nd Edition, (2006) 4. INTRODUCTION TO SOLID STATE PHYSICS by CHARLES KITTEL, WILEY, 8th. 5. Fundamental of Physics by Halliday, Renick and Walker ,9th , JOHN WILEY & SONS PUBLISHERS, USA(2011) 6.Engineering Physics by Hitendra K Malik and A K singh , TATA MCGRAW - HILL EDUCATION, Ist (2011)

  3. Course Outline

  4. Unit I :Solid State Physics Free electron theory , Band theory of Solids ,Concept of effective mass ,Hall effect, Direct & indirect band gap semiconductors Unit II: Solid State Devices and Lasers Rectifier diode, Zener diode, Tunnel diode, Light Emitting Diode ,solar cell, Avalanche and photodiode, Fundamentals of LASER- Energy levels in atoms, Lasing action. Unit III: Types of Lasers and Holography Types of Lasers and Holography, Nd:YAG, Gas Laser: He - Ne, Semiconductor Laser, Applications of Laser safety Unit IV: Introductory Quantum Mechanics I Matter waves, Heisenberg's Uncertainty principle Schrodinger's Time independent equation. Unit V: Introductory Quantum Mechanics II Potential Barrier (emphasis on tunneling effect), Scanning Tunneling microscope, Harmonic Oscillator, Hydrogen atom model (qualitative), Selection rules, Applications of Schrodinger's equation   Unit VI: Thermal Physics Liquefaction of gas with changing Pressure, Adiabatic demagnetization, Transfer of heat, Radiation - Stefan's law (statement and equation), Concept of Heat

  5. Evaluation Criteria Marks break up Attendance 5 CA (Two best out of three tasks) 20 MTE (MCQ) 25 ETE( Descriptive ) 50 Total 100

  6. Unit I & II: Solid State Physics and Solid state Devices.

  7. Unit II & III: Solid State Devices ,Lasers and its type, Holography.

  8. Unit IV: Introduction to Quantum Mechanics-I.

  9. Unit V:Quantum Mechanics –II.

  10. Unit VI :Thermal Physics. Linde’s method to liquefaction of gas

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