- Docente: Paolo Finelli
- Credits: 6
- SSD: FIS/04
- Language: Italian
- Teaching Mode: Traditional lectures
- Campus: Bologna
- Corso: Second cycle degree programme (LM) in Physics (cod. 8025)
Course contents
Introduction to nuclear potentials (First
part)
Realistic nuclear potentials. Nuclear phase shifts and inverse
scattering problem. Long-range interaction (one pion exchange) and
Yukawa potential. Deuton as a bound system. Effective interactions
and G matrix. Realistic shell model. Renormalization group
techniques applied to nuclear potentials. (In this first part
numerical codes will be provided)
Chiral Symmetry / Spontaneous symmetry breaking (Second
part)
Short introduction field theory and to Dirac and Klein-Gordon
equations. Short introduction to Lie groups. Noether theorem and
proof. Chiral symmetry: introduction, conserved currents, current
algebra, mesonic states transformation, hadronic spectrum.
PCAC hypothesis (partially conserved axial current) and decay of
the pion. Goldberger-Treiman relation. Gell Mann Oakes Renner
relation. Introduction to the concept of symmetries: Weyl and
Nambu-Goldstone realization. Coleman theorem. Goldstone theorem.
Goldstone theorem application: Heisenberg ferromagnet, scalar field
theories, gauge theories, chiral symmetry. Linear sigma model.
Introduction to Effective field theories. Non Linear Sigma Model.
Nambu Jona-Lasinio Model. QCD phase diagram and its phase
transitions.
Readings/Bibliography
There is no a comprehensive text book. Relevant bibliographies will be given during the lectures and made available at http://minimafisica.biodec.com
Teaching methods
Lectures with slides or at the chalkboard.
Assessment methods
Oral examination. More details will be provided later.
Teaching tools
Tutorials and numerical codes will be available on the web site http://minimafisica.biodec.com
Links to further information
http://minimafisica.biodec.com
Office hours
See the website of Paolo Finelli