Coming soon
Nuclear physics- II
This course will enable the students to –
● provide an understanding ofstatic properties of nuclei, nuclear decay modes, nuclear force and nuclear models
● provide broad understanding of basic experimental nuclear detection techniques
● motivate the students to take up research in Nuclear Science.
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Course |
Learning outcomes (at course level) |
Learning and teaching strategies |
Assessment Strategies |
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Course Code |
Course Title |
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24PHY422
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Nuclear physics II (Theory)
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CO123: Solve the nuclear Shell models and Collective models and their roles. CO124: Solution of the radioactivity sources and different particle decay hypothesis in the radioactive series. CO125: Estimate the decay rates and lifetime of radioactive decays like alpha, beta, gamma decay etc. CO126: Discuss the general characteristics of weak interaction. CO127: Explain the Nuclear Reactions and nuclear structure studies with deuteron strapping. CO128: Contribute effectively in Course specific interaction. |
Approach in teaching: Interactive Lectures, Discussion, Tutorials, , Demonstration, Problem Solving.
Learning activities for the students: Self learning assignments, Effective questions, Seminar presentation, Solving numerical Additional learning through online videos and MOOC courses |
Class test, Semester end examinations, Quiz, Solving problems, Assignments, Presentations |
Single particle and collective motions in nuclei, Assumptions and justification of the shell model, average shell potential, spin orbit coupling, single particle wave functions and level sequence, magic numbers, shell model predictions for ground state parity, angular momentum, magnetic dipole and electric quadruple moments, and their comparisons with experimental data, configuration mixing, single particle transition probability according to the shell model, selection rules, approximate estimates for the transition probability and Weiss Kopf units, Nuclear isomerism.
Collective variable to describe the cooperative modes of nuclear motion, Parameterization of nuclear surface, A brief description of the collective model Hamiltonian (in the quadratic approximation), Vibrational modes of a spherical nucleus, Collective modes of a deformed even-even nucleus and moments of inertia, Collective spectra and electromagnetic transition in even nuclei and comparison with experimental data, Nilsson model for the single particle states in deformed nuclei.
Electric and magnetic multipole moments and gamma decay probabilities in nuclear systems (no derivations), Reduced transition probability, Selection rules, Internal conversion and zero-zero transition.
Nuclear beta decay and lepton capture, electron energy spectrum and Fermi-Curie PSOt, Fermi theory of beta decay (parity conserved selection rules Fermi and Gamow-Teller) for allowed transitions, ft-values, General interaction Hamiltonian for beta decay with parity conserving and non conserving terms; Forbidden transitions, Experimental verification of parity violation, The V-A interaction and experimental verification.
Theories of Nuclear Reactions, Partial wave analysis of reaction Cross section, Compound nucleus formation and breakup, Resonance scattering and reaction-Breit-Wigner dispersion formula for s-waves (1 = 0), continuum cross section, Statistical theory of nuclear reactions, evaporation probability and cross section for specific reactions, The optical model, Strapping and pick-up reactions and their simple theoretical description (Butler theory) using plane wave Born approximation (PWBA), Shortcomings of PWBA, Nuclear structure studies with deuteron strapping (d, p) reactions.
- R.R. Roy and B.P. Nigam: Nuclear Physics (Willey -Easter, 1979).
- R.D. Evans : The Atomic Nucleus (Mc Graw Hills, 1955)
- R.M. Singru : Introductory Experimental Nuclear Physics.
- J.M. Bhatt and V.E. Weisskipf : Theoretical Nuclear Physics.
- L.R.B. Elton : Introductory Nuclear Theory (ELBS Publication, London, 1959).
- B.K. Agarwal : Nuclear Physics (Lokbharti Publication Allahabad. 1989).
- M.A. Preston & R.K. Bhaduri: Structure of the Nucleus (Addition-Wesley, 1975).
- England- Techniques on Nuclear Structure (Vol I).
- H. Enge. Introduction Nuclear Physics (Addison-Wesley, 1970).
- W.E. Burcham : Elements of Nuclear Physics (ELBS. Longman. 1988)
- B.L. Cohen : Concept of Nuclear Physics (Tata McGraw Hills, 1988).
- E. Segre : Nuclei and Particles (Benjamin, 1977). I. Kaplan : Nuclear Physics (Addison Wesley, 1963).
- D. Hallidy : Introductory Nuclear Physics (Wiley, 1955).
- Harvey : Introduction of Nuclear Physics and Chemistry.
E content:
· https://library.psfc.mit.edu/catalog/online_pubs/books/evans_atomic_nucleus.pdf.
