(in Polish) Advanced Graduate Nuclear Physics 1100-SZD-AGNP
1) General properties of nuclei. Size and density, halo nuclei. Magnetic moments. Spin and parity. Isospin physics. Nuclear masses.
2) Radioactivity and nuclear decay. Alpha decay. Beta decay and beta delayed particle emission. Double beta decay. Proton and two proton radioactivity. Gamma decay.
3) Nuclear models for the understanding of nuclear phenomena. Liquid drop model. Shell model. Collective models. Fission. Nuclear deformation. Ab initio approaches.
4) Production of exotic nuclei and radiation detectors for nuclear physics. Accelerators Tandem Van der Graaf, LINAC and cyclotron. ISOL and in-flight production methods. Beam manipulation: optics, mass separators, traps. Charged particle detectors, gamma detectors, neutron detectors. Anatomy of a nuclear physics experiment.
Course coordinators
Bibliography
K. S. Krane, "Introductory Nuclear Physics", John Willey & Sons 1988
K. Hyde, "Basic Ideas and Concepts in Nuclear Physics", IOP Publishing, 1994
G. Knoll, “Radiation Detection and Measurement”, John Wiley & Sons 2000
W. R. Leo, "Techniques for Nuclear and Particle Physics Experiments", Springer, 1994
K. Debertin, R. Helmer, “Gamma and X-ray Spectrometry with Semiconductor Detectors“, Elsevier Science 1988
G. R. Gilmore, "Practical Gamma-ray Spectrometry”, John Wiley & Sons 2008
Additional information
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