Physics
Course Description
Level: Second Level Degree
Degree Class: LM-17 R - Physics
Department: PHYSICS
Admission: Free
CFUs: 120
Duration: 2 years
Italian
Pisa
Content in Italian
Il corso di laurea non è ad accesso programmato.
Requisito curriculare generale per l'ammissione è il possesso di una laurea triennale in Fisica (classe 25 o classe L-30).
Sono ammessi laureati di altre classi, con titolo conseguito in Italia o equivalente titolo conseguito all'estero, purché in possesso di 90 CFU maturati nei SSD di Fisica (SSD FIS/01-08).
Sono ammessi inoltre gli studenti di Università con cui siano in vigore apposite convenzioni, secondo i requisiti in esse specificati.
Il consiglio, in presenza di laureati con elevata preparazione, ma privi dei 90 crediti nei settori di Fisica, potrà prescrivere eventuali ulteriori insegnamenti da superare prima dell'effettiva immatricolazione alla LM e, ove necessario, vincolerà il percorso magistrale a un preciso e ben delineato piano di studi.
E' richiesta una buona conoscenza della lingua Inglese (livello B2 o superiore).
Content in Italian
Coloro che posseggono i requisiti curriculari per l'ammissione al corso di Laurea Magistrale cioè 90 CFU maturati nei SSD di Fisica (SSD FIS/01-08) sono ammessi di diritto alla LM. Gli studenti di Università con cui è in vigore una convenzione sono ammessi secondo i requisiti in essa specificati.
Agli studenti laureati, con elevata preparazione ma privi del requisito di 90 CFU maturati nei SSD di Fisica (SSD FIS/01-08), una specifica Commissione, preposta alla valutazione, indicherà eventuali ulteriori insegnamenti da superare prima dell'immatricolazione e, ove necessario, vincolerà il loro piano di studi magistrale.
Evaluation
Contacts
Presidente del Corso di Laurea
Stefano Roddaro
Email: stefano.roddaro@unipi.it
Referente didattico
Antonella Spinosa
Tel. (+39) 050 2214628
Email: antonella.spinosa@unipi.it
Unità Didattica del Dipartimento di Fisica: https://www.df.unipi.it/didattica/contatti
Orario di ricevimento: Stanza 27, primo piano, edificio B: lunedì dalle ore 08.30 alle ore 10.30; martedì e giovedì dalle ore 11.00 alle ore 13.00; mercoledì dalle ore 15.00 alle ore 17.00: segrdida@df.unipi.it
Study Plan
For students enrolled in the academic year 2026/2027
Astronomia e astrofisica
Required
- Astrophysics and multimessenger laboratory (12 CFU) - Ciclo annuale unico
- Stellar physics (9 CFU) - Secondo ciclo semestrale
- Astrophysical processes (9 CFU) - Primo ciclo semestrale
- Extragalactic astrophysics and cosmology (9 CFU) - Secondo ciclo semestrale
Gr microfisico i anno astr (9 CFU)
- Solid state physics (9 CFU) - Primo ciclo semestrale
- Nuclear physics (9 CFU) - Primo ciclo semestrale
- Complex systems (9 CFU) - Primo ciclo semestrale
- Fundamentals of light matter interaction (9 CFU) - Primo ciclo semestrale
- Fundamental interactions (9 CFU) - Primo ciclo semestrale
- Plasma physics (9 CFU) - Primo ciclo semestrale
Gr teorico i anno astr (9 CFU)
- Statistical physics (9 CFU) - Primo ciclo semestrale
- Quantum field theory (9 CFU) - Primo ciclo semestrale
- General relativity (9 CFU) - Primo ciclo semestrale
Gr astr i anno astr (between 6 and 9 CFU)
- Detection techniques: from lab to space (9 CFU) - Secondo ciclo semestrale
- Multimessenger and high-energy astrophysics (6 CFU) - Primo ciclo semestrale
- Physics of star formation (6 CFU) - Primo ciclo semestrale
- Advanced technologies for ground-based astrophysics: from microwaves to visible light (6 CFU) - Primo ciclo semestrale
- Physics and detectors of gravitational waves (9 CFU) - Secondo ciclo semestrale
- Physics and detectors of gravitational waves s (6 CFU) - Secondo ciclo semestrale
- Astroparticle physics s (6 CFU) - Secondo ciclo semestrale
- Stellar physics s (6 CFU) - Secondo ciclo semestrale
- Astroparticle physics (9 CFU) - Secondo ciclo semestrale
- Cosmology of the early universe (9 CFU) - Secondo ciclo semestrale
- Astrophisics (6 CFU) - Secondo ciclo semestrale
- Particle dark matter (6 CFU) - Primo ciclo semestrale
Required
- Final exam (45 CFU)
12 CFU a scelta II anno astr (12 CFU)
- Quantum technologies for fundamental interaction physics (9 CFU)
- Theory of nuclear interaction (9 CFU)
- Theory of nuclear interaction s (6 CFU)
- Fluid dynamics (6 CFU)
- Introduction to the physics of controlled nuclear fusion (6 CFU)
- Design of digital systems for radiation detection (6 CFU)
- Statistical analysis laboratory (6 CFU)
- Graphics and animation with python (3 CFU)
- Quantum foundations for quantum technology (6 CFU)
- Standard model for particle interaction s (6 CFU)
- Electronics and sensors (6 CFU)
- Accelerator physics s (6 CFU)
- Gravitation theory s (6 CFU)
- Montecarlo methods in experimental physics (6 CFU)
- Statistical data analysis (9 CFU)
- Hadron collider physics (9 CFU)
- Solid state physics (9 CFU)
- Advanced quantum field theory (9 CFU)
- Standard model for particle interaction (9 CFU)
- Gravitation theory (9 CFU)
- Group theory (6 CFU)
- Fundamentals of light matter interaction (9 CFU)
- Fundamental interactions (9 CFU)
- Experimental methods for astroparticle physics (9 CFU)
- Experimental methods for astroparticle physics s (6 CFU)
- Computational physics laboratory (9 CFU)
- Quantum optics and plasma physics (9 CFU)
- Nonperturbative approaches to quantum field theories (9 CFU)
- Computing methods for experimental physics and data analysis (9 CFU)
- Computing methods for experimental physics and data analysis s (6 CFU)
- Informatica con laboratorio (6 CFU)
- Particle physics s (6 CFU)
- Computational physics laboratory s (6 CFU)
- Quantum computing and technologies (9 CFU)
- Instrumentation for fundamental interactions physics (9 CFU)
- Physics of sound (6 CFU)
- La fisica di tutti i giorni (6 CFU)
Other
- Quantum technologies for fundamental interaction physics (9 CFU) - Secondo ciclo semestrale
- Detection techniques: from lab to space (9 CFU)
- Multimessenger and high-energy astrophysics (6 CFU)
- Physics of star formation (6 CFU)
- Advanced technologies for ground-based astrophysics: from microwaves to visible light (6 CFU)
- Introduction to the physics of controlled nuclear fusion (6 CFU) - Secondo ciclo semestrale
- Design of digital systems for radiation detection (6 CFU) - Secondo ciclo semestrale
- Graphics and animation with python (3 CFU) - Secondo ciclo semestrale
- Quantum foundations for quantum technology (6 CFU) - Secondo ciclo semestrale
- Standard model for particle interaction s (6 CFU) - Secondo ciclo semestrale
- Astroparticle physics s (6 CFU)
- Stellar physics s (6 CFU)
- Astroparticle physics (9 CFU)
- Nuclear physics (9 CFU)
- Statistical physics (9 CFU)
- Stellar physics (9 CFU)
- Quantum field theory (9 CFU)
- Advanced quantum field theory (9 CFU) - Secondo ciclo semestrale
- Standard model for particle interaction (9 CFU)
- Astrophysical processes (9 CFU)
- General relativity (9 CFU)
- Gravitation theory (9 CFU) - Secondo ciclo semestrale
- Cosmology of the early universe (9 CFU)
- Compact star physics (9 CFU)
- Particle physics (9 CFU)
- Particle physics (9 CFU) - Secondo ciclo semestrale
- Experimental methods for astroparticle physics (9 CFU) - Primo ciclo semestrale
- Experimental methods for astroparticle physics s (6 CFU) - Primo ciclo semestrale
- Computational physics laboratory (9 CFU) - Ciclo annuale unico
- Plasma physics (9 CFU)
- Informatica con laboratorio (6 CFU) - Primo ciclo semestrale
- Extragalactic astrophysics and cosmology (9 CFU)
- La fisica di tutti i giorni (6 CFU) - Primo ciclo semestrale
- Particle dark matter (6 CFU)
Fisica della materia
Required
- Fundamentals of light matter interaction (9 CFU) - Primo ciclo semestrale
Gr microfisico 1 i anno f materia (18 CFU)
- Flexible and nano-electronics (9 CFU) - Secondo ciclo semestrale
- 3d and 4d nanomaterials and devices (9 CFU) - Secondo ciclo semestrale
- Laboratory of instrumental seismology (9 CFU) - Secondo ciclo semestrale
- Fluid dynamics (6 CFU) - Primo ciclo semestrale
- Solid state physics (9 CFU) - Primo ciclo semestrale
- Nuclear physics (9 CFU) - Primo ciclo semestrale
- Complex systems (9 CFU) - Primo ciclo semestrale
- Disordered systems out of equilibrium (9 CFU) - Primo ciclo semestrale
- Plasma physics (9 CFU) - Primo ciclo semestrale
- Condensed matter physics (9 CFU) - Secondo ciclo semestrale
- Physics of biosystems (9 CFU) - Primo ciclo semestrale
Gr teorico i anno f materia (9 CFU)
- Statistical physics (9 CFU) - Primo ciclo semestrale
- Quantum field theory (9 CFU) - Primo ciclo semestrale
Gr a scelta i anno f materia (9 CFU)
- Neuroengineering (6 CFU) - Secondo ciclo semestrale
- Microbiorobotics (6 CFU) - Secondo ciclo semestrale
- Rock physics (6 CFU) - Primo ciclo semestrale
- Introduction to the physics of controlled nuclear fusion (6 CFU) - Secondo ciclo semestrale
- Quantum biology (9 CFU) - Secondo ciclo semestrale
- Graphics and animation with python (3 CFU) - Secondo ciclo semestrale
- Photonics and materials (6 CFU) - Primo ciclo semestrale
- Group theory for material science (3 CFU) - Secondo ciclo semestrale
- Theory of superconductivity and quantum devices (6 CFU) - Secondo ciclo semestrale
- Quantum foundations for quantum technology (6 CFU) - Secondo ciclo semestrale
- Quantum many-body states of matter (9 CFU) - Primo ciclo semestrale
- Physics of surfaces and interfaces (3 CFU) - Primo ciclo semestrale
- Physics of photonic devices (9 CFU) - Secondo ciclo semestrale
- Atom optics (9 CFU) - Secondo ciclo semestrale
- Chemical physics of molecules (9 CFU) - Primo ciclo semestrale
- Complex systems - neural dynamics (9 CFU) - Secondo ciclo semestrale
- Nonlinear dynamics (9 CFU) - Secondo ciclo semestrale
- Quantum optics and plasma physics (9 CFU) - Secondo ciclo semestrale
- Large scale physical oceanography (9 CFU) - Secondo ciclo semestrale
- Quantum computing and technologies (9 CFU) - Primo ciclo semestrale
- Spectroscopy and microscopy of nanomaterials (6 CFU) - Secondo ciclo semestrale
- Introduction to molecular biophysics (6 CFU) - Primo ciclo semestrale
- La fisica di tutti i giorni (6 CFU) - Primo ciclo semestrale
- Optic foundations (6 CFU) - Secondo ciclo semestrale
- Quantum thermodynamics (6 CFU) - Secondo ciclo semestrale
Gr lab. mat. (15 CFU)
- Computational physics laboratory s (6 CFU) - Ciclo annuale unico
- Physics of matter and nanotechnology laboratory (15 CFU) - Ciclo annuale unico
- Physics of matter and nanotechnology laboratory s (9 CFU) - Ciclo annuale unico
Required
- Final exam (45 CFU)
Gr astrofisica II anno f materia (6 CFU)
- Astroparticle physics s (6 CFU)
- Stellar physics s (6 CFU)
- Astrophisics (6 CFU)
Liberi 9 CFU II anno f materia (9 CFU)
- Quantum technologies for fundamental interaction physics (9 CFU)
- Biophysics for eflash therapy (9 CFU)
- Detection techniques: from lab to space (9 CFU)
- Theory of nuclear interaction (9 CFU)
- Theory of nuclear interaction s (6 CFU)
- Teorie di campo statistiche (9 CFU)
- Teorie di campo statistiche s (6 CFU)
- Quantum machine learning (3 CFU)
- Mechanics of geophysical fluids (9 CFU)
- Design of digital systems for radiation detection (6 CFU)
- Statistical analysis laboratory (6 CFU)
- Standard model for particle interaction s (6 CFU)
- Electronics and sensors (6 CFU)
- Physics of electronic devices (6 CFU)
- Compact star physics s (6 CFU)
- Accelerator physics s (6 CFU)
- Nuclear magnetic resonance (6 CFU)
- Gravitation theory s (6 CFU)
- Montecarlo methods in experimental physics (6 CFU)
- Astroparticle physics (9 CFU)
- Statistical data analysis (9 CFU)
- Dosimetry (6 CFU)
- Hadron collider physics (9 CFU)
- Stellar physics (9 CFU)
- Advanced quantum field theory (9 CFU)
- Standard model for particle interaction (9 CFU)
- General relativity (9 CFU)
- Chemical physics of molecules (9 CFU)
- Gravitation theory (9 CFU)
- Cosmology of the early universe (9 CFU)
- Compact star physics (9 CFU)
- Group theory (6 CFU)
- Particle physics (9 CFU)
- Fundamental interactions (9 CFU)
- Experimental methods for astroparticle physics (9 CFU)
- Experimental methods for astroparticle physics s (6 CFU)
- Computational physics laboratory (9 CFU)
- Signal processing for physics (6 CFU)
- Laser-plasma accelerators (6 CFU)
- Nonperturbative approaches to quantum field theories (9 CFU)
- Computing methods for experimental physics and data analysis (9 CFU)
- Computing methods for experimental physics and data analysis s (6 CFU)
- Extragalactic astrophysics and cosmology (9 CFU)
- Hadron collider physics s (6 CFU)
- Particle physics s (6 CFU)
- Computational physics laboratory s (6 CFU)
- Instrumentation for fundamental interactions physics (9 CFU)
- Spectroscopy and microscopy of nanomaterials (6 CFU)
- Physics of sound (6 CFU)
- La fisica di tutti i giorni (6 CFU)
- Physics for cultural heritage (9 CFU)
- Elements of physiology, physiopathology and diagnostics (6 CFU)
Other
- Flexible and nano-electronics (9 CFU)
- Theory of nuclear interaction s (6 CFU) - Secondo ciclo semestrale
- Quantum machine learning (3 CFU) - Secondo ciclo semestrale
- Neuroengineering (6 CFU)
- Microbiorobotics (6 CFU)
- Laboratory of instrumental seismology (9 CFU)
- Mechanics of geophysical fluids (9 CFU) - Secondo ciclo semestrale
- Fluid dynamics (6 CFU)
- Rock physics (6 CFU)
- Design of digital systems for radiation detection (6 CFU) - Secondo ciclo semestrale
- Quantum biology (9 CFU)
- Theory of superconductivity and quantum devices (6 CFU)
- Quantum foundations for quantum technology (6 CFU)
- Quantum many-body states of matter (9 CFU)
- Standard model for particle interaction s (6 CFU) - Secondo ciclo semestrale
- Electronics and sensors (6 CFU) - Secondo ciclo semestrale
- Physics of surfaces and interfaces (3 CFU)
- Statistical data analysis (9 CFU) - Primo ciclo semestrale
- Physics of photonic devices (9 CFU)
- Solid state physics (9 CFU)
- Nuclear physics (9 CFU)
- Statistical physics (9 CFU)
- Quantum field theory (9 CFU)
- Standard model for particle interaction (9 CFU)
- Atom optics (9 CFU)
- Astrophysical processes (9 CFU) - Primo ciclo semestrale
- Astrophysical processes (9 CFU)
- General relativity (9 CFU) - Primo ciclo semestrale
- Complex systems (9 CFU)
- Complex systems - neural dynamics (9 CFU)
- Astrophisics (6 CFU) - Secondo ciclo semestrale
- Fundamentals of light matter interaction (9 CFU)
- Disordered systems out of equilibrium (9 CFU)
- Nonlinear dynamics (9 CFU)
- Computational physics laboratory (9 CFU) - Ciclo annuale unico
- Signal processing for physics (6 CFU) - Primo ciclo semestrale
- Quantum optics and plasma physics (9 CFU)
- Computing methods for experimental physics and data analysis (9 CFU) - Ciclo annuale unico
- Computing methods for experimental physics and data analysis s (6 CFU) - Ciclo annuale unico
- Condensed matter physics (9 CFU)
- Large scale physical oceanography (9 CFU)
- Quantum computing and technologies (9 CFU)
- Instrumentation for fundamental interactions physics (9 CFU) - Secondo ciclo semestrale
- Physics of biosystems (9 CFU)
- Introduction to molecular biophysics (6 CFU)
- Optic foundations (6 CFU)
Fisica medica
Required
- Molecular imaging (6 CFU) - Secondo ciclo semestrale
- Medical physics (9 CFU) - Primo ciclo semestrale
- Medical physics laboratory b (15 CFU) - Ciclo annuale unico
Gr astro i anno f medica (6 CFU)
- Astroparticle physics s (6 CFU) - Secondo ciclo semestrale
- Stellar physics s (6 CFU) - Secondo ciclo semestrale
- Astrophisics (6 CFU) - Secondo ciclo semestrale
Gr fmed 15CFU i anno f medica (15 CFU)
- Flexible and nano-electronics (9 CFU) - Secondo ciclo semestrale
- 3d and 4d nanomaterials and devices (9 CFU) - Secondo ciclo semestrale
- Quantum technologies for fundamental interaction physics (9 CFU) - Secondo ciclo semestrale
- Biophysics for eflash therapy (9 CFU) - Secondo ciclo semestrale
- Neuroengineering (6 CFU) - Secondo ciclo semestrale
- Microbiorobotics (6 CFU) - Secondo ciclo semestrale
- Design of digital systems for radiation detection (6 CFU) - Secondo ciclo semestrale
- Quantum biology (9 CFU) - Secondo ciclo semestrale
- Accelerator physics s (6 CFU) - Secondo ciclo semestrale
- Nuclear magnetic resonance (6 CFU) - Secondo ciclo semestrale
- Dosimetry (6 CFU) - Secondo ciclo semestrale
- Complex systems - neural dynamics (9 CFU) - Secondo ciclo semestrale
- Physics of biosystems (9 CFU) - Primo ciclo semestrale
- Imaging per la fisica bio-medica (9 CFU)
- Introduction to molecular biophysics (6 CFU) - Primo ciclo semestrale
- Elements of physiology, physiopathology and diagnostics (6 CFU) - Primo ciclo semestrale
Gr microfisico i anno f medica (9 CFU)
- Solid state physics (9 CFU) - Primo ciclo semestrale
- Nuclear physics (9 CFU) - Primo ciclo semestrale
- Fundamentals of light matter interaction (9 CFU) - Primo ciclo semestrale
- Fundamental interactions (9 CFU) - Primo ciclo semestrale
Gr teorica i anno f medica (9 CFU)
- Statistical physics (9 CFU) - Primo ciclo semestrale
- Quantum field theory (9 CFU) - Primo ciclo semestrale
- General relativity (9 CFU) - Primo ciclo semestrale
Required
- Final exam (45 CFU)
Liberi II anno f medica (6 CFU)
- Introduction to the physics of controlled nuclear fusion (6 CFU)
- Design of digital systems for radiation detection (6 CFU)
- Statistical analysis laboratory (6 CFU)
- Graphics and animation with python (3 CFU)
- Astroparticle physics s (6 CFU)
- Electronics and sensors (6 CFU)
- Physics of electronic devices (6 CFU)
- Compact star physics s (6 CFU)
- Stellar physics s (6 CFU)
- Accelerator physics s (6 CFU)
- Nuclear magnetic resonance (6 CFU)
- Gravitation theory s (6 CFU)
- Montecarlo methods in experimental physics (6 CFU)
- Dosimetry (6 CFU)
- Cosmology of the early universe s (6 CFU)
- Group theory (6 CFU)
- Experimental methods for astroparticle physics s (6 CFU)
- Computing methods for experimental physics and data analysis s (6 CFU)
- Informatica con laboratorio (6 CFU)
- Particle physics s (6 CFU)
- Computational physics laboratory s (6 CFU)
- Physics of sound (6 CFU)
- La fisica di tutti i giorni (6 CFU)
- Optic foundations (6 CFU)
- Elements of physiology, physiopathology and diagnostics (6 CFU)
Other
- Flexible and nano-electronics (9 CFU)
- 3d and 4d nanomaterials and devices (9 CFU)
- Neuroengineering (6 CFU)
- Microbiorobotics (6 CFU)
- Introduction to the physics of controlled nuclear fusion (6 CFU) - Secondo ciclo semestrale
- Quantum biology (9 CFU)
- Graphics and animation with python (3 CFU) - Secondo ciclo semestrale
- Statistical data analysis (9 CFU) - Primo ciclo semestrale
- Statistical data analysis (9 CFU)
- Nuclear physics (9 CFU)
- Statistical physics (9 CFU)
- Quantum field theory (9 CFU)
- Advanced quantum field theory (9 CFU) - Secondo ciclo semestrale
- Advanced quantum field theory (9 CFU)
- General relativity (9 CFU)
- Cosmology of the early universe s (6 CFU) - Secondo ciclo semestrale
- Complex systems - neural dynamics (9 CFU)
- Astrophisics (6 CFU)
- Fundamentals of light matter interaction (9 CFU)
- Fundamental interactions (9 CFU)
- Computational physics laboratory (9 CFU) - Ciclo annuale unico
- Computational physics laboratory (9 CFU)
- Computing methods for experimental physics and data analysis (9 CFU)
- Computing methods for experimental physics and data analysis (9 CFU) - Ciclo annuale unico
- Computing methods for experimental physics and data analysis s (6 CFU) - Ciclo annuale unico
- Informatica con laboratorio (6 CFU) - Primo ciclo semestrale
- Physics of sound (6 CFU) - Primo ciclo semestrale
- La fisica di tutti i giorni (6 CFU) - Primo ciclo semestrale
Fisica teorica
Required
- Quantum field theory (9 CFU) - Primo ciclo semestrale
- Advanced quantum field theory (9 CFU) - Secondo ciclo semestrale
Astrofisica i anno f teor (6 CFU)
- Astroparticle physics s (6 CFU) - Secondo ciclo semestrale
- Stellar physics s (6 CFU) - Secondo ciclo semestrale
- Astrophisics (6 CFU) - Secondo ciclo semestrale
Laboratori i anno f teor (9 CFU)
- Quantum technologies for fundamental interaction physics (9 CFU) - Secondo ciclo semestrale
- Detection techniques: from lab to space (9 CFU) - Secondo ciclo semestrale
- Statistical data analysis (9 CFU) - Primo ciclo semestrale
- Computational physics laboratory (9 CFU) - Ciclo annuale unico
- Computing methods for experimental physics and data analysis (9 CFU) - Ciclo annuale unico
- Instrumentation for fundamental interactions physics (9 CFU) - Secondo ciclo semestrale
- Physics of matter and nanotechnology laboratory s (9 CFU) - Ciclo annuale unico
- Fundamental interactions laboratory s (9 CFU) - Primo ciclo semestrale
Microfisica i anno f teor (9 CFU)
- Fluid dynamics (6 CFU) - Primo ciclo semestrale
- Solid state physics (9 CFU) - Primo ciclo semestrale
- Complex systems (9 CFU) - Primo ciclo semestrale
- Fundamentals of light matter interaction (9 CFU) - Primo ciclo semestrale
- Fundamental interactions (9 CFU) - Primo ciclo semestrale
- Disordered systems out of equilibrium (9 CFU) - Primo ciclo semestrale
- Plasma physics (9 CFU) - Primo ciclo semestrale
- Condensed matter physics (9 CFU) - Secondo ciclo semestrale
- Quantum computing and technologies (9 CFU) - Primo ciclo semestrale
Liberi 15 CFU i anno f teor (15 CFU) (15 CFU)
- Astrophysics and multimessenger laboratory (12 CFU) - Ciclo annuale unico
- Graphics and animation with python (3 CFU) - Secondo ciclo semestrale
- Electronics and sensors (6 CFU) - Secondo ciclo semestrale
- Accelerator physics s (6 CFU) - Secondo ciclo semestrale
- Astroparticle physics (9 CFU) - Secondo ciclo semestrale
- Quantum chromodynamics (9 CFU) - Secondo ciclo semestrale
- Dosimetry (6 CFU) - Secondo ciclo semestrale
- Nuclear physics (9 CFU) - Primo ciclo semestrale
- Stellar physics (9 CFU) - Secondo ciclo semestrale
- Atom optics (9 CFU) - Secondo ciclo semestrale
- General relativity (9 CFU) - Primo ciclo semestrale
- Cosmology of the early universe (9 CFU) - Secondo ciclo semestrale
- Group theory (6 CFU) - Secondo ciclo semestrale
- Experimental methods for astroparticle physics (9 CFU) - Primo ciclo semestrale
- Experimental methods for astroparticle physics s (6 CFU) - Primo ciclo semestrale
- Quantum optics and plasma physics (9 CFU) - Secondo ciclo semestrale
- Computing methods for experimental physics and data analysis s (6 CFU) - Ciclo annuale unico
- Informatica con laboratorio (6 CFU) - Primo ciclo semestrale
- Extragalactic astrophysics and cosmology (9 CFU) - Secondo ciclo semestrale
- Hadron collider physics s (6 CFU)
- Computational physics laboratory s (6 CFU) - Ciclo annuale unico
- Large scale physical oceanography (9 CFU) - Secondo ciclo semestrale
- La fisica di tutti i giorni (6 CFU) - Primo ciclo semestrale
- Physics for cultural heritage (9 CFU) - Primo ciclo semestrale
- Optic foundations (6 CFU) - Secondo ciclo semestrale
Required
- Final exam (45 CFU)
Affini e integrative II anno f teor (18 CFU)
- Theory of nuclear interaction (9 CFU)
- Theory of nuclear interaction s (6 CFU)
- Teorie di campo statistiche (9 CFU)
- Teorie di campo statistiche s (6 CFU)
- Quantum foundations for quantum technology (6 CFU)
- Quantum many-body states of matter (9 CFU)
- Standard model for particle interaction s (6 CFU)
- Gravitation theory s (6 CFU)
- Quantum chromodynamics (9 CFU)
- Nuclear physics (9 CFU)
- Statistical physics (9 CFU)
- Standard model for particle interaction (9 CFU)
- General relativity (9 CFU)
- Gravitation theory (9 CFU)
- Cosmology of the early universe (9 CFU)
- Cosmology of the early universe s (6 CFU)
- Nonperturbative approaches to quantum field theories (9 CFU)
- Nonperturbative appoaches to quantum field theories s (6 CFU)
Other
- Quantum technologies for fundamental interaction physics (9 CFU)
- Astrophysics and multimessenger laboratory (12 CFU)
- Fluid dynamics (6 CFU)
- Graphics and animation with python (3 CFU)
- Quantum foundations for quantum technology (6 CFU) - Secondo ciclo semestrale
- Quantum many-body states of matter (9 CFU) - Primo ciclo semestrale
- Standard model for particle interaction s (6 CFU) - Secondo ciclo semestrale
- Standard model for particle interaction (9 CFU)
- Complex systems (9 CFU)
- Gravitation theory (9 CFU) - Secondo ciclo semestrale
- Complex systems - neural dynamics (9 CFU) - Secondo ciclo semestrale
- Complex systems - neural dynamics (9 CFU)
- Group theory (6 CFU)
- Astrophisics (6 CFU)
- Particle physics (9 CFU) - Secondo ciclo semestrale
- Plasma physics (9 CFU)
- Informatica con laboratorio (6 CFU)
- Condensed matter physics (9 CFU)
- Computational physics laboratory s (6 CFU)
- La fisica di tutti i giorni (6 CFU)
Generale
Gr 01 i anno generale (between 6 and 15 CFU)
- Quantum technologies for fundamental interaction physics (9 CFU) - Secondo ciclo semestrale
- Laboratory of instrumental seismology (9 CFU) - Secondo ciclo semestrale
- Statistical data analysis (9 CFU) - Primo ciclo semestrale
- Computational physics laboratory (9 CFU) - Ciclo annuale unico
- Signal processing for physics (6 CFU) - Primo ciclo semestrale
- Computing methods for experimental physics and data analysis (9 CFU) - Ciclo annuale unico
- Computing methods for experimental physics and data analysis s (6 CFU) - Ciclo annuale unico
- Computational physics laboratory s (6 CFU) - Ciclo annuale unico
- Physics of matter and nanotechnology laboratory s (9 CFU) - Ciclo annuale unico
- Fundamental interactions laboratory (15 CFU) - Primo ciclo semestrale
- Fundamental interactions laboratory s (9 CFU) - Primo ciclo semestrale
Gr 02 i anno generale (9 CFU)
- Quantum chromodynamics (9 CFU) - Secondo ciclo semestrale
- Statistical physics (9 CFU) - Primo ciclo semestrale
- Quantum field theory (9 CFU) - Primo ciclo semestrale
- Advanced quantum field theory (9 CFU) - Secondo ciclo semestrale
- General relativity (9 CFU) - Primo ciclo semestrale
Gr 03 e 04 i anno generale (between 9 and 18 CFU)
- Flexible and nano-electronics (9 CFU) - Secondo ciclo semestrale
- Mechanics of geophysical fluids (9 CFU) - Secondo ciclo semestrale
- Fluid dynamics (6 CFU) - Primo ciclo semestrale
- Rock physics (6 CFU) - Primo ciclo semestrale
- Earth sensing and geophysical monitoring instrumentation (6 CFU) - Primo ciclo semestrale
- Theory of superconductivity and quantum devices (6 CFU) - Secondo ciclo semestrale
- Solid state physics (9 CFU) - Primo ciclo semestrale
- Complex systems (9 CFU) - Primo ciclo semestrale
- Fundamentals of light matter interaction (9 CFU) - Primo ciclo semestrale
- Fundamental interactions (9 CFU) - Primo ciclo semestrale
- Disordered systems out of equilibrium (9 CFU) - Primo ciclo semestrale
- Plasma physics (9 CFU) - Primo ciclo semestrale
- Quantum optics and plasma physics (9 CFU) - Secondo ciclo semestrale
- Condensed matter physics (9 CFU) - Secondo ciclo semestrale
- Quantum computing and technologies (9 CFU) - Primo ciclo semestrale
- Physics of biosystems (9 CFU) - Primo ciclo semestrale
Gr 05 i anno generale (6 CFU)
- Multimessenger and high-energy astrophysics (6 CFU) - Primo ciclo semestrale
- Physics of star formation (6 CFU) - Primo ciclo semestrale
- Astroparticle physics s (6 CFU) - Secondo ciclo semestrale
- Stellar physics s (6 CFU) - Secondo ciclo semestrale
- Cosmology of the early universe s (6 CFU) - Secondo ciclo semestrale
- Astrophisics (6 CFU) - Secondo ciclo semestrale
6)gr 06 i anno (18 CFU)
- Advanced technologies for ground-based astrophysics: from microwaves to visible light (6 CFU) - Primo ciclo semestrale
- Electronics and sensors (6 CFU) - Secondo ciclo semestrale
- Montecarlo methods in experimental physics (6 CFU) - Secondo ciclo semestrale
- Particle physics (9 CFU) - Secondo ciclo semestrale
- Experimental methods for astroparticle physics (9 CFU) - Primo ciclo semestrale
- Particle physics s (6 CFU) - Secondo ciclo semestrale
- Large scale physical oceanography (9 CFU) - Secondo ciclo semestrale
- Spectroscopy and microscopy of nanomaterials (6 CFU) - Secondo ciclo semestrale
- Introduction to neutrino physics (3 CFU) - Primo ciclo semestrale
- Introduction to molecular biophysics (6 CFU) - Primo ciclo semestrale
- Physics for cultural heritage (9 CFU) - Primo ciclo semestrale
- Quantum thermodynamics (6 CFU) - Secondo ciclo semestrale
- Particle dark matter (6 CFU) - Primo ciclo semestrale
- Elements of physiology, physiopathology and diagnostics (6 CFU) - Primo ciclo semestrale
Required
- Final exam (45 CFU)
Gr fis II anno generale (27 CFU)
- 3d and 4d nanomaterials and devices (9 CFU)
- Biophysics for eflash therapy (9 CFU)
- Detection techniques: from lab to space (9 CFU)
- Astrophysics and multimessenger laboratory (12 CFU)
- Theory of nuclear interaction s (6 CFU)
- Quantum machine learning (3 CFU)
- Neuroengineering (6 CFU)
- Microbiorobotics (6 CFU)
- Introduction to the physics of controlled nuclear fusion (6 CFU)
- Design of digital systems for radiation detection (6 CFU)
- Molecular imaging (6 CFU)
- Quantum biology (9 CFU)
- Statistical analysis laboratory (6 CFU)
- Graphics and animation with python (3 CFU)
- Photonics and materials (6 CFU)
- Group theory for material science (3 CFU)
- Physics and detectors of gravitational waves (9 CFU)
- Physics and detectors of gravitational waves s (6 CFU)
- Quantum foundations for quantum technology (6 CFU)
- Quantum many-body states of matter (9 CFU)
- Standard model for particle interaction s (6 CFU)
- Electronics and sensors (6 CFU)
- Physics of electronic devices (6 CFU)
- Compact star physics s (6 CFU)
- Physics of surfaces and interfaces (3 CFU)
- Accelerator physics s (6 CFU)
- Nuclear magnetic resonance (6 CFU)
- Gravitation theory s (6 CFU)
- Montecarlo methods in experimental physics (6 CFU)
- Astroparticle physics (9 CFU)
- Dosimetry (6 CFU)
- Hadron collider physics (9 CFU)
- Physics of photonic devices (9 CFU)
- Stellar physics (9 CFU)
- Advanced quantum field theory (9 CFU)
- Atom optics (9 CFU)
- Chemical physics of molecules (9 CFU)
- Gravitation theory (9 CFU)
- Cosmology of the early universe (9 CFU)
- Compact star physics (9 CFU)
- Complex systems - neural dynamics (9 CFU)
- Group theory (6 CFU)
- Experimental methods for astroparticle physics (9 CFU)
- Experimental methods for astroparticle physics s (6 CFU)
- Discrete symmetries (6 CFU)
- Nonlinear dynamics (9 CFU)
- Nonperturbative approaches to quantum field theories (9 CFU)
- Computing methods for experimental physics and data analysis s (6 CFU)
- Extragalactic astrophysics and cosmology (9 CFU)
- Hadron collider physics s (6 CFU)
- Instrumentation for fundamental interactions physics (9 CFU)
- Imaging per la fisica bio-medica (9 CFU)
- Bio-systems lab (15 CFU)
- Nonperturbative appoaches to quantum field theories s (6 CFU)
- Physics of sound (6 CFU)
- La fisica di tutti i giorni (6 CFU)
- Optic foundations (6 CFU)
- Nuclear weapons, disarmament and nuclear proliferation (6 CFU)
Other
- Flexible and nano-electronics (9 CFU)
- 3d and 4d nanomaterials and devices (9 CFU) - Secondo ciclo semestrale
- Biophysics for eflash therapy (9 CFU) - Secondo ciclo semestrale
- Detection techniques: from lab to space (9 CFU) - Secondo ciclo semestrale
- Astrophysics and multimessenger laboratory (12 CFU) - Ciclo annuale unico
- Multimessenger and high-energy astrophysics (6 CFU)
- Physics of star formation (6 CFU)
- Advanced technologies for ground-based astrophysics: from microwaves to visible light (6 CFU)
- Theory of nuclear interaction s (6 CFU) - Secondo ciclo semestrale
- Quantum machine learning (3 CFU) - Secondo ciclo semestrale
- Microbiorobotics (6 CFU) - Secondo ciclo semestrale
- Laboratory of instrumental seismology (9 CFU)
- Mechanics of geophysical fluids (9 CFU)
- Fluid dynamics (6 CFU)
- Rock physics (6 CFU)
- Introduction to the physics of controlled nuclear fusion (6 CFU) - Secondo ciclo semestrale
- Design of digital systems for radiation detection (6 CFU) - Secondo ciclo semestrale
- Molecular imaging (6 CFU) - Secondo ciclo semestrale
- Quantum biology (9 CFU) - Secondo ciclo semestrale
- Graphics and animation with python (3 CFU) - Secondo ciclo semestrale
- Photonics and materials (6 CFU) - Primo ciclo semestrale
- Group theory for material science (3 CFU) - Secondo ciclo semestrale
- Earth sensing and geophysical monitoring instrumentation (6 CFU)
- Theory of superconductivity and quantum devices (6 CFU)
- Quantum foundations for quantum technology (6 CFU) - Secondo ciclo semestrale
- Quantum many-body states of matter (9 CFU) - Primo ciclo semestrale
- Standard model for particle interaction s (6 CFU) - Secondo ciclo semestrale
- Astroparticle physics (9 CFU) - Secondo ciclo semestrale
- Quantum chromodynamics (9 CFU)
- Nuclear physics (9 CFU) - Primo ciclo semestrale
- Nuclear physics (9 CFU)
- Stellar physics (9 CFU) - Secondo ciclo semestrale
- Accelerator physics (9 CFU)
- Accelerator physics (9 CFU) - Secondo ciclo semestrale
- Astrophysical processes (9 CFU)
- Astrophysical processes (9 CFU) - Primo ciclo semestrale
- Complex systems (9 CFU)
- Cosmology of the early universe (9 CFU) - Secondo ciclo semestrale
- Nuclear reaction theory (9 CFU)
- Complex systems - neural dynamics (9 CFU) - Secondo ciclo semestrale
- Astrophisics (6 CFU)
- Particle physics (9 CFU)
- Signal processing for physics (6 CFU)
- Plasma physics (9 CFU)
- Quantum optics and plasma physics (9 CFU)
- Extragalactic astrophysics and cosmology (9 CFU) - Secondo ciclo semestrale
- Condensed matter physics (9 CFU)
- Particle physics s (6 CFU)
- Computational physics laboratory s (6 CFU)
- Large scale physical oceanography (9 CFU)
- Instrumentation for fundamental interactions physics (9 CFU) - Secondo ciclo semestrale
- Spectroscopy and microscopy of nanomaterials (6 CFU)
- Introduction to neutrino physics (3 CFU)
- Introduction to molecular biophysics (6 CFU)
- Physics of matter and nanotechnology laboratory (15 CFU) - Ciclo annuale unico
- Fundamental interactions laboratory (15 CFU) - Ciclo annuale unico
- La fisica di tutti i giorni (6 CFU) - Primo ciclo semestrale
- Physics for cultural heritage (9 CFU)
- Optic foundations (6 CFU) - Secondo ciclo semestrale
- Quantum thermodynamics (6 CFU)
- Particle dark matter (6 CFU)
- Nuclear weapons, disarmament and nuclear proliferation (6 CFU) - Secondo ciclo semestrale
Interazioni fondamentali
Required
- Fundamental interactions (9 CFU) - Primo ciclo semestrale
- Fundamental interactions laboratory (15 CFU) - Primo ciclo semestrale
Gr if libera scelta i anno int fond (9 CFU)
- Physics of star formation (6 CFU) - Primo ciclo semestrale
- Fluid dynamics (6 CFU) - Primo ciclo semestrale
- Physics and detectors of gravitational waves (9 CFU) - Secondo ciclo semestrale
- Astroparticle physics s (6 CFU) - Secondo ciclo semestrale
- Electronics and sensors (6 CFU) - Secondo ciclo semestrale
- Accelerator physics s (6 CFU) - Secondo ciclo semestrale
- Montecarlo methods in experimental physics (6 CFU) - Secondo ciclo semestrale
- Astroparticle physics (9 CFU) - Secondo ciclo semestrale
- Dosimetry (6 CFU) - Secondo ciclo semestrale
- Hadron collider physics (9 CFU) - Secondo ciclo semestrale
- Nuclear physics (9 CFU) - Primo ciclo semestrale
- Statistical physics (9 CFU) - Primo ciclo semestrale
- Advanced quantum field theory (9 CFU) - Secondo ciclo semestrale
- Accelerator physics (9 CFU) - Secondo ciclo semestrale
- Standard model for particle interaction (9 CFU)
- General relativity (9 CFU) - Primo ciclo semestrale
- Cosmology of the early universe (9 CFU) - Secondo ciclo semestrale
- Cosmology of the early universe s (6 CFU) - Secondo ciclo semestrale
- Experimental methods for astroparticle physics (9 CFU) - Primo ciclo semestrale
- Experimental methods for astroparticle physics s (6 CFU) - Primo ciclo semestrale
- Computational physics laboratory (9 CFU) - Ciclo annuale unico
- Plasma physics (9 CFU) - Primo ciclo semestrale
- Computing methods for experimental physics and data analysis (9 CFU) - Ciclo annuale unico
- Computing methods for experimental physics and data analysis s (6 CFU) - Ciclo annuale unico
- Instrumentation for fundamental interactions physics (9 CFU) - Secondo ciclo semestrale
- Introduction to neutrino physics (3 CFU) - Primo ciclo semestrale
- Fundamental interactions laboratory s (9 CFU) - Primo ciclo semestrale
- Nuclear weapons, disarmament and nuclear proliferation (6 CFU) - Secondo ciclo semestrale
Gr if 1 i anno int fond (9 CFU)
- Quantum field theory (9 CFU) - Primo ciclo semestrale
Gr if 3 i anno int fond (6 CFU)
- Physics and detectors of gravitational waves s (6 CFU) - Secondo ciclo semestrale
- Standard model for particle interaction s (6 CFU) - Secondo ciclo semestrale
- Discrete symmetries (6 CFU) - Secondo ciclo semestrale
- Hadron collider physics s (6 CFU)
- Particle physics s (6 CFU) - Secondo ciclo semestrale
- Physics of sound (6 CFU) - Primo ciclo semestrale
Gr if 4 i anno int fond (9 CFU)
- Quantum technologies for fundamental interaction physics (9 CFU) - Secondo ciclo semestrale
- Statistical data analysis (9 CFU) - Primo ciclo semestrale
Required
- Final exam (45 CFU)
Gr if 2 II anno int fond (6 CFU)
- Multimessenger and high-energy astrophysics (6 CFU)
- Astroparticle physics s (6 CFU)
- Cosmology of the early universe s (6 CFU)
- Astrophisics (6 CFU)
Liberi II anno int fond (12 CFU)
- Flexible and nano-electronics (9 CFU)
- 3d and 4d nanomaterials and devices (9 CFU)
- Quantum technologies for fundamental interaction physics (9 CFU)
- Detection techniques: from lab to space (9 CFU)
- Astrophysics and multimessenger laboratory (12 CFU)
- Advanced technologies for ground-based astrophysics: from microwaves to visible light (6 CFU)
- Theory of nuclear interaction (9 CFU)
- Theory of nuclear interaction s (6 CFU)
- Teorie di campo statistiche (9 CFU)
- Teorie di campo statistiche s (6 CFU)
- Introduction to the physics of controlled nuclear fusion (6 CFU)
- Design of digital systems for radiation detection (6 CFU)
- Statistical analysis laboratory (6 CFU)
- Graphics and animation with python (3 CFU)
- Physics and detectors of gravitational waves (9 CFU)
- Physics and detectors of gravitational waves s (6 CFU)
- Quantum foundations for quantum technology (6 CFU)
- Standard model for particle interaction s (6 CFU)
- Electronics and sensors (6 CFU)
- Physics of electronic devices (6 CFU)
- Compact star physics s (6 CFU)
- Physics of surfaces and interfaces (3 CFU)
- Stellar physics s (6 CFU)
- Accelerator physics s (6 CFU)
- Nuclear magnetic resonance (6 CFU)
- Gravitation theory s (6 CFU)
- Montecarlo methods in experimental physics (6 CFU)
- Astroparticle physics (9 CFU)
- Statistical data analysis (9 CFU)
- Quantum chromodynamics (9 CFU)
- Dosimetry (6 CFU)
- Hadron collider physics (9 CFU)
- Physics of photonic devices (9 CFU)
- Solid state physics (9 CFU)
- Statistical physics (9 CFU)
- Stellar physics (9 CFU)
- Quantum field theory (9 CFU)
- Advanced quantum field theory (9 CFU)
- Standard model for particle interaction (9 CFU)
- Atom optics (9 CFU)
- General relativity (9 CFU)
- Gravitation theory (9 CFU)
- Cosmology of the early universe (9 CFU)
- Compact star physics (9 CFU)
- Group theory (6 CFU)
- Particle physics (9 CFU)
- Fundamental interactions (9 CFU)
- Experimental methods for astroparticle physics (9 CFU)
- Experimental methods for astroparticle physics s (6 CFU)
- Computational physics laboratory (9 CFU)
- Signal processing for physics (6 CFU)
- Quantum optics and plasma physics (9 CFU)
- Laser-plasma accelerators (6 CFU) - Secondo ciclo semestrale
- Nonperturbative approaches to quantum field theories (9 CFU)
- Computing methods for experimental physics and data analysis (9 CFU)
- Computing methods for experimental physics and data analysis s (6 CFU)
- Particle physics s (6 CFU)
- Computational physics laboratory s (6 CFU)
- Quantum computing and technologies (9 CFU)
- La fisica di tutti i giorni (6 CFU)
- Physics for cultural heritage (9 CFU)
- Optic foundations (6 CFU)
- Particle dark matter (6 CFU)
- Elements of physiology, physiopathology and diagnostics (6 CFU)
Other
- Flexible and nano-electronics (9 CFU) - Secondo ciclo semestrale
- 3d and 4d nanomaterials and devices (9 CFU) - Secondo ciclo semestrale
- Detection techniques: from lab to space (9 CFU) - Secondo ciclo semestrale
- Astrophysics and multimessenger laboratory (12 CFU) - Ciclo annuale unico
- Multimessenger and high-energy astrophysics (6 CFU) - Primo ciclo semestrale
- Advanced technologies for ground-based astrophysics: from microwaves to visible light (6 CFU) - Primo ciclo semestrale
- Theory of nuclear interaction s (6 CFU) - Secondo ciclo semestrale
- Fluid dynamics (6 CFU)
- Introduction to the physics of controlled nuclear fusion (6 CFU) - Secondo ciclo semestrale
- Design of digital systems for radiation detection (6 CFU) - Secondo ciclo semestrale
- Graphics and animation with python (3 CFU) - Secondo ciclo semestrale
- Quantum foundations for quantum technology (6 CFU) - Secondo ciclo semestrale
- Quantum many-body states of matter (9 CFU) - Primo ciclo semestrale
- Quantum many-body states of matter (9 CFU)
- Solid state physics (9 CFU) - Primo ciclo semestrale
- Nuclear physics (9 CFU)
- Astrophysical processes (9 CFU)
- Complex systems (9 CFU) - Primo ciclo semestrale
- Complex systems - neural dynamics (9 CFU)
- Astrophisics (6 CFU) - Secondo ciclo semestrale
- Particle physics (9 CFU) - Secondo ciclo semestrale
- Discrete symmetries (6 CFU)
- Signal processing for physics (6 CFU) - Primo ciclo semestrale
- Plasma physics (9 CFU)
- Laser-plasma accelerators (6 CFU)
- Condensed matter physics (9 CFU) - Secondo ciclo semestrale
- Computational physics laboratory s (6 CFU) - Ciclo annuale unico
- Quantum computing and technologies (9 CFU) - Primo ciclo semestrale
- Physics of sound (6 CFU)
- La fisica di tutti i giorni (6 CFU) - Primo ciclo semestrale
- Optic foundations (6 CFU) - Secondo ciclo semestrale
- Particle dark matter (6 CFU) - Primo ciclo semestrale
Comune
Other
- Spectroscopy algorithms (3 CFU)
- Final exam (45 CFU)
- Free training activity (18 CFU)
- Student's choice (18 CFU)
Career opportunities
Enrolment
- a university degree recognised as suitable under current legislation
- the curricular requirements specified in the regulations of the degree courses
- adequate personal preparation, assessed according to the procedures defined in the regulations of the degree course.
Pre-registration for the academic year 2026/2027