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Faculty of Science Handbook, Session 2019/2020
LEVEL 3 bonding in solids, dynamics of monoatomic and diatomic lattices (1-D
and 3-D), density of states, dispersion of phonons, thermal properties:
specific heat capacity, thermal conductivity, free and quantized electron
SIF3001 NUCLEAR PHYSICS (3 CREDITS) models, D.C. conductivity and electron dispersion, band theory of solids:
Bloch function, Kronig-Penney model, band theory of solids: effective
Nuclear structure and properties, Nuclear scattering, Nuclear force and mass, density of states and concentration of electrons.
force exchange, Nuclear decays, isospin, Nuclear reactions, fission and
fusion, Nuclear reactions in astrophysics. Assessment Method:
Final Examination: 60%
Assessment Method: Continuous Assessment: 40%
Final Examination: 60%
Continuous Assessment: 40% Medium of Instruction:
English
Medium of Instruction:
English Soft-skills:
CS3, CTPS3, LL2
Soft-skills:
CS2, CTPS3, LL2 References:
1. C. Kittel, Introduction to Solid State Physics, 8th edition (John
References: Wiley, 2012)
1. Kenneth S. Krane, Introductory Nuclear Physics (Wiley, 1987) 2. M.A. Omar , Elementary Solid State Physics , 4th edition (Addison
2. Richard Dunlap, An Introduction to the Physics of Nuclei and Wesley, 1999)
Particles (Brooks & Cole, 2004) 3. J.S. Blakemore, Solid State Physics, Cambridge Uni Press
3. C.A. Bertulani, Nuclear Physics in a Nutshell (Princeton, 2007) (Saunders, 1994)
4. J. Liley, Nuclear Physics: Principles and Applications (Wiley, 2013) 4. J. Richard Christman, Fundamental of Solid State Physics (Wiley,
5. Raymond Murray, Keith E. Holbert, Nuclear Energy: An Introduction 1988)
to the Concepts, Systems, and Applications of Nuclear Processes 5. P. Phillips, Advanced Solid State Physics (Cambridge University
(Elsivier, 2015) Press, 2012)
6. C. Iliadis, Nuclear Physics of the Stars (Wiley, 2015) 6. Giuseppe Grosso, Giuseppe Pastori Parravicini, Solid State
Physics (Academic Press, 2012)
SIF3002 ATOMIC AND MOLECULAR PHYSICS (3 CREDITS) 7. Philip Hofmann, Solid State Physics: An Introduction (Wiley, 2015)
Electron spin, Anomalous Zeeman & Paschen Back; SIF3004 PROJECT (8 CREDITS)
Magnetic moment of electron - Spin orbital interaction & Fine structure;
Magnetic moment of nucleus - Hyperfine structure; Research project in physics and related fields. Workshop projects.
Addition of angular momenta; Relativistic effects; Seminar in selected topics.
Fine structure; Indistinguishable particles & Pauli Exclusion Principle;
Helium atom; Multi electron atom; alkali atom; Coupling of angular Assessment Method:
momenta - LS & jj; Periodic table and Hund's rule; Hyperfine structure; Continuous Assessment: 100%
Atomic spectra & spectroscopy; Time dependent perturbation theory
and Fermi golden rule; Absorption, spontaneous and stimulated Medium of Instruction:
emissions; Selection rules and Transition rate; Natural linewidth & English
inhomogenous broadening; Einstein coefficient A and B; Diatomic
molecules - Hamiltonian, Born-Oppenheimer approximation, molecular Soft-skills:
potential, vibrational energy, rotational energy; vibrational transition, CS3, CTPS3, LL2, EM2, TS2, LS2
vibronic transition and Frank-Condon principle, molecular spectra.
Reference:
Assessment Method: 1. Project’s supervisor
Final Examination: 60%
Continuous Assessment: 40% SIF3005 INDUSTRIAL TRAINING (3 CREDITS)
Medium of Instruction: This course provides opportunities for students to obtain training and
English working experience in selected companies/ organization or industries
engaged in activities related to physics.
Soft-skills:
CS2, CTPS3, LL2 Assessment Method:
Final Examination: 0%
References: Continuous Assessment: 100%
1. B.H. Bransden, Physics of atoms and molecules (Pearson
Education, 2006) Medium of Instruction:
2. W. Demtröder, Atoms, Molecules, and Photons: an introduction to English
atomic-, molecular-, and quantum-physics, 2nd ed. (Springer,
2011) Soft-skills:
3. R. Eisberg & R. Resnick, Quantum Physics of Atoms, Molecules, CS3, CTPS3, LL2, EM2, TS3, LS2
Solids, Nuclei and Particles (Wiley, 2002)
4. Ch. J. Foot, Atomic Physics, Oxford University Press 2005. Reference:
5. Vasant Natarajan, Modern Atomic Physics (CRC Press, 2015) 1. Project’s supervisor
6. Rajesh Srivastava, Rakesh Choubisa, Atomic and Molecular
Physics: Introduction to Advanced Topics (Narosa Publishing,
2012) ELECTIVE COURSES
SIF3003 SOLID STATE PHYSICS (3 CREDITS)
SIF2012 MODERN OPTICS AND LASER PHYSICS (3 CREDITS)
Introduction to types of solids, structure of crystalline solids: periodicity,
lattice and unit cell, Bravais lattices, directions and planes in crystals, X- Introduction to laser: Basic laser theory, Characteristics of a laser beam,
ray diffraction, diffraction techniques, reciprocal lattice, Brillouin zone, temporal and spatial coherence, Classical Law of radiation,
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