Quantum Mechanics Detailed Syllabus for Nano Technology M.Tech first year first sem is covered here. This gives the details about credits, number of hours and other details along with reference books for the course.
The detailed syllabus for Quantum Mechanics M.Tech 2017-2018 (R17) first year first sem is as follows.
M.Tech. I Year I Sem.
Prerequisite:
- Basics physics
- Quantum mechanics
- Basic chemistry
- Basic material science
Course Objective: The course is intended to cover, basics concepts of crystallography, quantum mechanics, matter and energy relations, de-Brogile hypothesis, wave function analogies, Schrodinger equation, quantum dot, wires and wells etc.
Course Outcomes:
- To know the importance of crystal structures for property evaluation
- Students without quantum mechanics back ground will be able to understand the concept of quantum mechanics and nanotechnology,
- To evaluate nanostructures in quantum mechanical approaches
Unit-I : Review of simple harmonic motion, the stretched string equation of motion, standing waves & Fourier waves, the Fourier Transform Problems.
Unit-II : Electromagnetic waves, Electromagnetic radiation, Particle mechanics, Theory of Relativity.
Unit-III : Introduction-Why quantum mechanics – matter waves-length scales – De-Broglie hypothesis – wave particle duality- Heisenberg’s uncertainty principle-Schrodinger wave equation – General postulates of Quantum mechanics- particle in one dimensional box, Bohr’s correspondence principle.
Unit-IV : Quantum mechanics of electronics: Electron as particle and electron as wave-Time independent Schrodinger equation and boundary condition on the wave function-Analogies between quantum mechanics and classical electromagnetic theory-Probabilistic current density-multiple particle systems.
Unit-V : Free and confined electrons: Free electrons-the free electron gas theory of metals-electrons confined to abounded region of space and quantum numbers-electrons confined to atom-the hydrogen atom and the periodic table-quantum dots-wires-wells.
REFERENCE BOOKS:
- Solid state Physics by Kittle {Unit-I,II}
- P.M. Mathews and K. Venkatesan, “A textbook of Quantum Mechanics”, Tata McGraw Hill Publishing Company Ltd {Unit-III}
- An introduction to solid states electronic devices by Ajay kumar saxena Macmillan India Ltd {Unit-I, II}
- Quantum Mechanics – Schiff {Unit-III}
- Quantum Mechanics by B.k. Agarwal and Hariprakash, PHI {Unit-III}
- Fundamentals of nanoelectronics by George W.Hanson Pearson education {Unit-IV, V}
- Introduction to Nanotechnology by Charles P. Poole Jr & Frank J. Owens; Wiley India Pvt. Ltd
- The Feynman lectures on Physics; Vol I to III
- Quantum mechanics by Brandsen & Joachem
- J.J. Sakurari, “Modern Quantum Mechanics McGraw Hill, Addison Wesley Longman Inc., USA, 1999
- Nano Technology and Nano Electronics – Materials, devices and measurement Techniques by WR Fahrner – Springer
- Nano Technology – science, innovation and opportunity by Lynn E Foster; Prentice Hall – Pearson education.
- Hand book of Nano structured materials; Vol I to V Bio Ethics Readings and cases by Branch A.Brody & H.Tristram Engelhardt. Jr; Pearson Education
- Quantum mechanics: – Pawling & Wilson
- Quantum physics by A. Ghatak
- Introduction to quantum chemistry by A.K.Chanda
- Introduction to Quantum Mechanics – Gupta, Kumar, Sharma
- Quantum Mechanics – Aruthas
For all other M.Tech 1st Year 1st Sem syllabus go to JNTUH M.Tech Nano Technology 1st Year 1st Sem Course Structure for (R17) Batch.
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