PhD courses a.a. 2021/2022
Accelerators Physics
Andrea Pisent (LNL), Marica Biagini(LNF)
Abstract
Course level:
Advanced Methods for Scattering Amplitudes
Pierpaolo Mastrolia and Sergio Cacciatori (Uni. Insubria, Como)
Abstract
Course level:
Advanced instrumentation for the study of nuclear structure and reaction dynamics
Francesco Recchia, Daniele Mengoni
Abstract
Course level: Advanced
Advanced Topics in Statistical Mechanics
Sandro Azaele, Giacomo Gradenigo
Abstract
Course level: Advanced
Black holes
Davide Cassani (INFN), Gianguido dall’Agata
Abstract
Course level: Introductory
Cosmology
Nicola Bartolo, Sabino Matarrese
Abstract
Course level: Introductory
Effective Field Theories for Particle Physics
Paride Paradisi, Ramona Gröber
Abstract
Course level:
Elements of X-ray Physics
G. Monaco, Chiara Maurizio, P. Sun
Abstract
Course level: Introductory
EU funding: opportunities for Research and Innovation and proposal writing
Alessia D’Orazio
Abstract
Course level:
Exactly-solvable models
Alessandro Sfondrini
Abstract
Course level: Introductory
Exploring the Universe with Gravitational Waves
Bertacca Daniele, Raccanelli Alvise, Ricciardone Angelo
Abstract
Course level:
4 pieces on Axions
Luca Di Luzio, Stefano Rigolin
Abstract
Course level: Advanced
Information theory, inference and computation
Carlo Albert, Jeff Byers
Abstract
Course level:
Introduction to Bosonization in Condensed Matter Physics
Luca Dell'Anna
Abstract
Course level: Introductory
Matter Genesis in Early Universe
Francesco D'Eramo, Marco Peloso
Abstract
Course level:
Multimessenger Astroparticle Physics (Experimental Astroparticle Physics)
Alessandro De Angelis
Abstract
Course level:
Neutrino physics
Riccardo Brugnera, Massimiliano Lattanzi, Stefano Dusini
Abstract
Course level: Introductory
Nuclear reactions with heavy ions
Andrea Vitturi, Alberto Stefanini
Abstract
Course level: Introductory
Physics at Future Colliders
Patrizia Azzi
Abstract
Course level: Introductory (but some knowledge of the Standard Model obtained during the Master degree is preferred)
Quantum Physics with atoms and ions
Luca Salasnich
Abstract
Course level: Introductory
Quantum tools for future scientific research
Simone Montangero
Abstract
Course level: Introductory
Radiative Processes in High Energy Astrophysics and Cosmology
Michele Liguori, Roberto Turolla
Abstract
Course level: The course does not require advanced knowledge in the fields of High Energy Astrophysics and Cosmology. The only prerequisite for the second part (Cosmic Microwave Background anisotropies) is an introductory knowledge of Cosmology: Universe expansion and the Hubble law, Robertson-Walker metric, Friedmann-Robertson walker equations and simple solutions
Standard Model & Flavour Physics
Gabriele Simi, Alberto Zucchetta o Mia Tosi + esterno
Abstract
Course level:
Statistical data analysis
Tommaso Dorigo, Denis Bastieri, Luca Stanco
Abstract
Course level: Introductory
Stochastic dynamics with applications
Amos Maritan
Abstract
Course level: Introductory
String theory
Luca Martucci, Stefano Massai
Abstract
Course level: Introductory (some basic knowledge of Quantum Field Theory and General Relativity are required
Structured light: from principles to modern applications
Gianluca Ruffato , Filippo Romanato
Abstract
Course level: Introductory
Struttura nucleare e dinamica delle reazioni con fasci radioattivi
Jose Javier Valiente Dobon (Laboratori Nazionali di Legnaro), Alessia Di Pietro, (Laboratori Nazionali del Sud)
Abstract
Course level: Introductory
Supersymmetry
Gianguido dall’Agata, Luca Vecchi (INFN)
Abstract
Course level: Advanced
Teaching and Learning Physics at University
Ornella Pantano
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Course level: