High Energy Physics using particle accelerators: Study of future colliders (Profile A)

CHARACTERISING
Physics laboratory
Theoretical physics of fundamental interactions (Mod A.)
Theoretical physics of fundamental interactions (Mod B.)
Nuclear physics
Subnuclear physics
Introduction to radiation detectors
Advanded physics laboratory A

INTEGRATIVE
To be chosen among:

• Standard model
• Astroparticle physics
• Applied Electronics
• Radioactivity and nuclear measurement

Experimental subnuclear physics
Advanced physics laboratory B
Fundamentals of astrophysics and cosmology

  High Energy Physics using particle accelerators: Study of future colliders (Profile B)

CHARACTERISING
Physics laboratory
Theoretical physics of fundamental interactions (Mod A.)
Theoretical physics of fundamental interactions (Mod B.)
Nuclear physics
Subnuclear physics
Introduction to radiation detectors
Advanded physics laboratory A

INTEGRATIVE
To be chosen among:

• Standard model
• Astroparticle physics
• Applied Electronics
• Radioactivity and nuclear measurements

Experimental Subnuclear physics
Advanced physics laboratory B
Fundamental of astrophysics and cosmology

“Introduction to Research” is an internship that must be carried out during the summer period of the first year (it is not possible to carry it out during the academic year or in the second year)

  Observational High Energy Physics: Neutrinos (profile A)

CHARACTERISING 
Physics laboratory
Theoretical physics of the fundamental interactions mod A
Theoretical physics of the fundamental interactions mod B
Nuclear physics
Subnuclear physics
Astroparticle physics
Advanced physics laboratory A

INTEGRATIVE
Introduction to radiation detectors
to be chosen among:

• Radioactivity and nuclear measurements
• Applied Electronics
• Nuclear Astrophysics

Advanced physics laboratory B
Fundamental of astrophysics and cosmology
Esperimental subnuclear physics
Cosmology of the early universe
 

  Observational High Energy Physics: Neutrinos (profile B)

CHARACTERISING 
Physics laboratory
Theoretical physics of the fundamental interactions mod A
Theoretical physics of the fundamental interactions mod B
Nuclear physics
Subnuclear physics
Astroparticle physics
Advanced physics laboratory A

INTEGRATIVE
Introduction to radiation detectors
Advanced Physics laboratory B
Fundamental of astrophysics and cosmology
Experimental subnuclear physics
Cosmology of the early universe

"Introduction to Research" is an internship that must be carried out during the summer period of the first year (it is not possible to carry it out during the academic year or in the second year)

  Nuclear Physics (Profile A)

CHARACTERISING
Physics laboratory
Theoretical physics of the fundamental interactions mod A
Theoretical physics of the fundamental interactions mod B
Nuclear physics
Subnuclear physics
Introduction to radiation detectors
Advanced physics laboratory A

SIMILIAR 
Radioactivity and nuclear measurements 
Applied Electronics
Advanced physics laboratory B
Solid state physics
Experimental subnuclear physics
Medical physics

  Nuclear Physics (profilo B)

CHARACTERISING
Physics laboratory
Theoretical physics of the fundamental interactions mod A
Theoretical physics of the fundamental interactions mod B
Nuclear physics
Subnuclear physics
Radioactivity and nuclear measurements
Advanced physics laboratory A

SIMILIAR
Radioactivity and nuclear measurements 
Applied Electronics
Advanced physics laboratory B
Solid state physics
Experimental subnuclear physics
Medical physics

“Introduction to Research” is an internship that must be carried out during the summer period of the first year (it is not possible to carry it out during the academic year or in the second year)

  Observational High Energy Physics: Astroparticle (Profile A)

CHARACTERISING
Physics laboratory
Theoretical physics of the fundamental interactions mod A
Theoretical physics of the fundamental interactions mod B
Nuclear physics
Subnuclear physics
Astroparticle physics
Advanced physics laboratory A

INTEGRATIVE
Multimessenger astrophysics

to be chosen among

• Introduction to radiation detectors
• Applied electronics
• Nuclear astrophysics

Advanced physics laboratory B
Fundamental of Astrophysics and cosmology
Experimental subnuclear physics
Cosmology of the early universe

  Observational High Energy Physics: Astroparticle (Profile B)

CHARACTERISING 
Physics laboratory
Theoretical physics of the fundamental interactions mod A
Theoretical physics of the fundamental interactions mod B
Nuclear physics
Subnuclear physics
Astroparticle physics
Advanced physics laboratory A

INTEGRATIVE
Advanced physics laboratory B
Fundamental of Astrophysics and cosmology
Experimental subnuclear physics
Cosmology of the early universe

“Introduction to Research” is an internship that must be carried out during the summer period of the first year (it is not possible to carry it out during the academic year or in the second year)

  R&D: Detectors,accelerators,spin off,applied physics (profile A)

CHARACTERISING
Physics laboratory 
Theoretical physics of the fundamental interactions mod A
Theoretical physics of the fundamental interactions mod B
Nuclear physics
Subnuclear physics
Astroparticle physics or (*)
Advanced physics laboratory A

INTEGRATIVE

(*) to be chosen among:

• Introduction to radiation detectors
• Radioactivity and nuclear measurement

Advanced physics laboratory B
Solid state physics
Experimental subnuclear physics
Medical physics
 

  R&D: Detectors,accelerators,spin off,applied physics (profile B)

CHARACTERISING
Physics laboratory 
Theoretical physics of the fundamental interactions mod A
Theoretical physics of the fundamental interactions mod B
Nuclear physics
Subnuclear physics
Astroparticle physics or (*)
Advanced physics laboratory A

INTEGRATIVE

(*) to be chosen among:

• Introduction to radiation detectors
• Radioactivity and nuclear measurements

Applied electronics
Advanced physics laboratory B
Solid state physics
Experimental subnuclear physics
Medical physics

“Introduction to Research” is an internship that must be carried out during the summer period of the first year (it is not possible to carry it out during the academic year or in the second year)
 

  Theoretical Physics - Quantum Gravity (Profile A)

CHARACTERISING
Physics laboratory
Theoretical physics of fundamental interactions (Mod A.)
Theoretical physics of fundamental interactions (Mod B.)
Quantum field theory
General relativity
Standard model
Quantum Gravity

INTEGRATIVE
Cosmology of the earty universe
Statistical mechanics
Astroparticle physics
Effective field theories
Advanced quantum field theory
Non-perturbative field therot

"Introduction to Research" is an internship that must be carried out during the summer period of the first year (it is not possible to carry it out during the academic year or in the second year)
 

  Theoretical Physics - Phenomenology of the Standard Model and Beyond (Profile B)

CHARACTERISING (48 CFU)
Physics laboratory
Theoretical physics of fundamental interactions (Mod A.)
Theoretical physics of fundamental interactions (Mod B.)
One exam FIS03/04/05 (*)

Quantum field theory
General relativity
Standard model
One exam to be chosen among: Astroparticle physics and Subnuclear physics
   

(*) to be chosen preferably among:

Nuclear astrophysics
Cosmology of the early universe
Quantum information with atoms and photons
solid state
Theory of strong correlated system

INTEGRATIVE (18 CFU)

Effective field theories
Quantum chromodynamics
Quantum gravity

FREE CHOICE (12 CFU)

Two exams to be chosen preferably among:

Highly recommended (if not selected):
Astroparticle
Cosmology of the early universe 
Subnuclear physics

Recommended:
Advanced quantum field theory
Non-perturbative quantum field theory
Statistical mechanics
Experimental subnuclear physics 

  Curriculum Fundamental Interactions applied to: Theoretical Astroparticle Physics

CHARACTERISING
Physics laboratory
Theoretical physics of fundamental interactions (Mod A.)
Theoretical physics of fundamental interactions (Mod B.)
Astroparticle physics
General relativity
Standard model
Cosmology of the early universe

INTEGRATIVE
Quantum field theory
Quantum gravity
Effective field theories
Statistical mechanics

HIGHLY RECOMMENDED
Multimessenger astrophysics
Non-perturbative quantum field theory
Nuclear physics

"Introduction to Research" is an internship that must be carried out during the summer period of the first year (it is not possible to carry it out during the academic year or in the second year)
 

  Curriculum Fundamental Interactions applied to: Theoretical Nuclear Physics

CHARACTERISING
Physics laboratory
Theoretical physics of fundamental interactions (Mod A.)
Theoretical physics of fundamental interactions (Mod B.)
Subnuclear physics
Quantum field theory
Advanced quantum field theory
Introduction to radiation detectors
Nuclear physics

INTEGRATIVE
Experimental subnuclear physics
Physics of nuclear fusion and plasma applications
Radioactivity and nuclear measurements

HIGHLY RECOMMENDED
Nuclear astrophysics
Models of theoretical physics
Mathematical physics
Structure of matter

"Introduction to Research" is an internship that must be carried out during the summer period of the first year (it is not possible to carry it out during the academic year or in the second year)