Overview of Lectures (I)

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Presentation transcript:

Overview of Lectures (I) Introduction Fri. Week 1, Lindemann (L) Why do we study Nuclear Physics What will this course cover Shape and density of the nuclei 2. The Semi Empirical Mass Formula (SEMF) Thu. Week 2, Martin Wood (MW) The liquid drop model The Fermi Gas Model Experimental verification 3./4./5. Using the SEMF and transition to Shell Model Fri. (L) Week 2 & Thu. (MW), Fri (L) Week 3 The valley of nuclear stability Nuclear decays (a, b, fission, others) Natural radioactivity The end of SEMF: Evidence of magic numbers The Shell Model Note: lectures in the Martin Wood starting 12:05 lectures in the Lindemann starting 14:05 (wks 1-4), 12:05 weeks 6-8 Oct 2006, Lecture 1 Nuclear Physics, Dr. Armin Reichold

Overview of Lectures (II) 6./7. Crossections Thu. (MW), Frid (L) Week 4, Experiments, natural units, conventions and definitions Fermi’s Golden Rule Rutherford Scattering Breit-Wigner resonances and partial decay widths Note: No nuclear physics lectures in week 5 ! 8./9. Theory of Decays Thu. & Fri. Week 6, (MW) Tunnelling model of a-decay Selection rules and decay rates in g-decay Fermi theory of b-decay Oct 2006, Lecture 1 Nuclear Physics, Dr. Armin Reichold

Overview of Lectures (III) 10./11. Particle Interactions with Matter Thu. & Fri. Week 7, (MW) dE/dx by ionisation and the Bethe-Bloch formula (9) Photoeffect, Compton Scattering, Bremsstrahlung, Pair Production Cherenkov radiation 12./13. Applications of Nuclear Physics Thy. & Fri. Week 8, (MW) Particle Detectors Fission Reactors Bombs Fusion reactors Radioactive dating (notes only) Oct 2006, Lecture 1 Nuclear Physics, Dr. Armin Reichold