An introduction to the physics of the nucleus and of the fundamental particles and their interactions. Topics in nuclear physics include nuclear phenomenology, radioactive decay, nuclear reactions; nuclear models: semi-empirical mass formula, shell model, collective models, the deuteron and the nucleon-nucleon interaction. Topics in particle physics include strong and electroweak interactions; global and local symmetries of the weak and strong interactions; the neutral Kaons and CP violation; Feynman diagrams; the Standard Model: quarks, gluons and colour; decay and reaction probabilities; hadron production; meson and baryon masses; charmonium; asymptotic freedom; neutrino oscillations. Weekly hours: 3 Lecture hoursPrerequisite(s): PHYS 383.
An introduction to the physics of the nucleus and of the fundamental particles and their interactions. Topics in nuclear physics include nuclear phenomenology, radioactive decay, nuclear reactions; nuclear models: semi-empirical mass formula, shell model, collective models, the deuteron and the nucleon-nucleon interaction. Topics in particle physics include strong and electroweak interactions; global and local symmetries of the weak and strong interactions; the neutral Kaons and CP violation; Feynman diagrams; the Standard Model: quarks, gluons and colour; decay and reaction probabilities; hadron production; meson and baryon masses; charmonium; asymptotic freedom; neutrino oscillations. Weekly hours: 3 Lecture hoursPrerequisite(s): PHYS 383.
