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Introduction to nuclear physics and measurements

Prof. Nicolas Pauly – Université Libre de Bruxelles


90 hours study time

  • 24 contact hours theory
  • 9 contact hours exercises/laboratory sessions/visits
  • 0 hours additional personal work (reading etc.)

    • To understand the basic properties of a nucleus
    • To analyze the role of conservation laws in decay processes and reactions
    • To understand the principles of neutron physics related to nuclear fission reactions
    • To describe interactions of radiation with matter
    • To describe characteristics of main particle detectors
    • To understand the principles of particles accelerators
    • Nuclear physics (10h)
      • Nuclear properties (nuclear radius; mass and abundance of nuclides; nuclear binding

        energy; nuclear exited states)
      • Elementary introduction to nuclear models (drop & shell)
      • Radioactive decay: radioactive decay law, radioactive mother-daughter chains, natural

        radioactive chains, types of radioactive decay, units of radioactivity
      • Alpha, Beta and Gamma decay
      • Fission and fusion
    • Interactions of particles with matter (4h)
    • Nuclear detectors (8h)
    • Accelerators (2h)
  • The PowerPoint presentations of the lectures are available on the BNEN website.

    Other useful references:

    • Krane, K.S. “Introductory Nuclear Physics”, John Wiley, 1987.
    • Tavernier, S. “Experimental techniques in nuclear and particle physics”, Springer-Verlag, 2010.
    • Knoll, G.F. “Radiation detection and measurement”, 4 ed., Wiley, 2010.
  • Bachelor level lectures on physics, mechanics, and mathematics.

    • First and second session: written examination (closed book).
    • Laboratory sessions are compulsory and count for 20% of the global mark (report + attendance).
    • Laboratory sessions cannot be repeated in the second session.

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