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Faculty of Science Handbook, Session 2019/2020
Astronomical Tools : optical telescope, radio telescope and space References:
telescope 1. Russell C. Hibbeler, Mechanics of Materials (9th Edition) (Prentice
Hall 2013)
Assessment Method: 2. William D. Callister, Materials Science and Engineering : An
Final Examination: 60% Introduction, 9th Ed. (Wiley, 2013)
Continuous Assessment: 40% 3. James F. Shackelford, Materials Science for Engineers, 8th Ed.
(Prentice Hall, 2014).
Medium of Instruction:
English SIF2017 SEMICONDUCTOR DEVICES (3 CREDITS)
Soft-skills: Discussion related to semiconductor: p-n junction. Semiconductor
CS2, CTPS3, LL2, EM1 devices and their operation principles: p-n diodes, Metal-semiconductor
junction: Schottky & Ohmic contact, Schottky diode, Field Effect
References: Transistor, LED, Solid state Laser, Photodiode & Solar cell, Microwave
1. Michael Seeds and Dana Backman, Foundations of Astronomy, devices & diodes (Tunnel diode, IMPATT diode, etc), Device fabrication
12th edition Brooks/Cole (2013) (photolithography, metallization, etc).
2. Dina Prialnik, An Introduction to the Theory of Stellar Structure and
Evolution, Cambridge University Press (2008) Assessment Method:
3. Physics of the stars, A.C Philips, Manchester Physics Series, Wiley Final Examination: 60%
(1999) Continuous Assessment: 40%
4. Stellar Structure and Evolution, 2nd Edition (2012)
5. An Introduction to Astronomy and Astrophysics, CRC press (2015) Medium of Instruction:
English
SIF3007 ELEMENTARY PARTICLE PHYSICS (3 CREDITS)
Soft-skills:
Antiparticles, Klein-Gordon and Dirac equations, Feynman diagrams, CS3, CTPS3, LL2
electromagnetic and weak forces, fundamental particles and forces,
natural units; Leptons and neutrino oscillations; Quarks and hadrons; References:
Symmetries : C, P and T, C, P and CP violations, and CPT; Quark model: 1. S. M. Sze, Semiconductor Devices: Physics and Technology, 3rd
isospin symmetry and bound states; Relativistic kinematics: four-vector Edition (John Wiley & Sons, 2013)
and cross section; QCD: asymptotic freedom, jets and elastic lepton- 2. Sima Dimitrijev, Principles of Semiconductor Devices (Oxford
nucleon scattering; Inelastic lepton-nucleon scattering: parton model, University Press, 2012)
structure functions and scaling violation; Weak interaction: charged and 3. Ben Streetman & Sanjay Banerjee, Solid State Electronics Devices,
neutral currents, quark mixing, electroweak unification and Higgs boson; 7th Edition (Prentice Hall, 2014)
Experimental methods. 4. Donghang Yan, Haibo Wang, Baoxun Du, Introduction to Organic
Semiconductor Heterojunctions (John Wiley & Sons, 2010)
Assessment Method:
Final Examination: 60% SIF3008 CONDENSED MATTER PHYSICS (3 CREDITS)
Continuous Assessment: 40%
Conducting Materials (electronic & ionic conductivity, mobility, electron
Medium of Instruction: dispersion mechanism); Semiconductors: band structure (Intrinsic and
English extrinsic properties); Electrical properties (conductivity, mobility, electron
dispersion mechanism); Optical properties; Photoconductivity; Insulating
Soft-skills: Materials: dielectric constant, polarization; AC & DC conductivities;
CS3, CTPS3, LL2, EM1 hopping mechanism; Piezoelectric; Ferroelectric, Pyroelectric; Magnetic
materials: basic theory; magnetic susceptibility; types of magnetic
References: properties, magnetic resonance; ferromagnetism; spintronics.
1. Brian R. Martin & Graham Shaw, Particle Physics (Wiley, 2008) Superconductors: zero resistivity, critical field, Meissner effect, BCS
2. D. Griffiths, Introduction to Elementary Particles (Wiley, 1987) model, Examples of superconducting materials, high temperature
3. D.H. Perkins, Introduction to high energy physics (Cambridge Univ. superconductors.
Press, 2000)
4. Introduction to Elementary Particle Physics by Alessandro Bettini Assessment Method:
(2014) Final Examination: 60%
5. Modern Particle Physics by Mark Thomson (2013) Continuous Assessment: 40%
6. Elementary Particle Physics, Volume 2 by Yorikiyo Nagashima
(2013) Medium of Instruction:
English
SIF2016 MATERIALS SCIENCE (3 CREDITS)
Soft-skills:
Introduction to material science and engineering. Atomic structure and CS3, CTPS3, LL2, EM1
interatomic bonding: Electronic structure. Structure of materials;
Molecular structure, Crystalline structure and Defects. Mechanical References:
properties. Phase diagram. Introduction to polymers, ceramics, 1. Condensed Matter Physics, Michael P. Marder 2nd Ed. (2015),
composites and biomaterials. Wiley.
2. Kittel C (2005). Introduction to Solid State Physics, Wiley.
Assessment Method: 3. Giuseppe Grosso and Giuseppe Pastori Parravicini, 2nd Ed. (2014)
Final Examination: 60% Solid State Physics, Elsevier.
Continuous Assessment: 40% 4. Giuseppe Iadonisi et al (2014). Introduction to Solid State Physics
and Crystalline Nanostructures (UNITEXT for Physics), Springer
Medium of Instruction:
English SIF2018 RADIATION PHYSICS (3 CREDITS)
Soft-skills: Radiation source, Nuclear Instability and types of radioactivity, Half-life
CS2, CTPS3, LL2, EM1 and mean life, Natural radioactive series and radioactive equilibrium
(Bateman equation), Branching decay and types of decay, Nuclear
activation, X-ray production, Moseley law,
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