Physics for Information Science detail syllabus for Information Technology (It), 2017 regulation is taken from Anna University official website and presented for students of Anna University. The details of the course are: course code (PH8252), Category (BS), Contact Periods/week (3), Teaching hours/week (3), Practical Hours/week (0). The total course credits are given in combined syllabus.
For all other it 2nd sem syllabus for be 2017 regulation anna univ you can visit It 2nd Sem syllabus for BE 2017 regulation Anna Univ Subjects. The detail syllabus for physics for information science is as follows.”
Course Objective:
- To understand the essential principles of Physics of semiconductor device and Electron transport properties. Become proficient in magnetic and optical properties of materials and Nano-electronic devices.
Unit I
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Unit II
Semiconductor Physics
Intrinsic Semiconductors – Energy band diagram – direct and indirect band gap semiconductors -Carrier concentration in intrinsic semiconductors – extrinsic semiconductors – Carrier concentration in N-type and P-type semiconductors – Variation of carrier concentration with temperature – variation of Fermi level with temperature and impurity concentration – Carrier transport in Semiconductor: random motion, drift, mobility and diffusion – Hall effect and devices – Ohmic contacts – Schottky diode.
Unit III
Magnetic Properties of Materials
Magnetic dipole moment – atomic magnetic moments- magnetic permeability and susceptibility -Magnetic material classification: diamagnetism – paramagnetism – ferromagnetism -antiferromagnetism – ferrimagnetism – Ferromagnetism: origin and exchange interaction- saturation magnetization and Curie temperature – Domain Theory- M versus H behaviour – Hard and soft magnetic materials – examples and uses– Magnetic principle in computer data storage – Magnetic hard disc (GMR sensor).
Unit IV
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Unit V
Nano Devices
Electron density in bulk material – Size dependence of Fermi energy – Quantum confinement -Quantum structures – Density of states in quantum well, quantum wire and quantum dot structure -Band gap of nanomaterials – Tunneling: single electron phenomena and single electron transistor -Quantum dot laser. Conductivity of metallic nanowires – Ballistic transport – Quantum resistance and conductance – Carbon nanotubes: Properties and applications.
Course Outcome:
At the end of the course, the students will able to
- Gain knowledge on classical and quantum electron theories, and energy band structuues,
- Acquire knowledge on basics of semiconductor physics and its applications in various devices,
- Get knowledge on magnetic properties of materials and their applications in data storage,
- Have the necessary understanding on the functioning of optical materials for optoelectronics,
- Understand the basics of quantum structures and their applications in carbon electronics..
Text Books:
- Jasprit Singh, Semiconductor Devices: Basic Principles, Wiley 2012.
- Kasap, S.O. Principles of Electronic Materials and Devices, McGraw-Hill Education, 2007.
- Kittel, C. Introduction to Solid State Physics. Wiley, 2005.
References:
- Garcia, N. and Damask, A. Physics for Computer Science Students. Springer-Verlag, 2012.
- Hanson, G.W. Fundamentals of Nanoelectronics. Pearson Education, 2009.
- Rogers, B., Adams, J. and Pennathur, S. Nanotechnology: Understanding Small Systems. CRC Press, 2014.
For detail syllabus of all other subjects of BE It, 2017 regulation do visit It 2nd Sem syllabus for 2017 Regulation.
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