Details about attended undergraduate
courses of Physics and theses (Italian names with contents in English):

First year courses:

ESPERIMENTAZIONE FISICA
1:

Classical Theory of Errors and of Propagation
of Errors, Foundations of Theory of ``Best-Fit'' between Experimental Data
and Theoretical Previsions; Applications of the Previous Concepts in Laboratory
Measures of Physical Constants as well as Properties of Bodies in Connection
with Mechanics, Dynamics and Thermodynamics.

ANALISI MATEMATICA 1:

Theory of Functions of One Variable,
Theory of Functions of Many Variables, Theory of Riemann Integral.

GEOMETRIA 1:

Group Theory, Linear Algebra, Multilinear
Algebra, Affine Geometry.

Lagrangian and Hamiltonian Theory,
Hamilton-Jacobi Theory, Calculus of Variations, Stability Theory of Solution
of Differential Equations, Dynamics of Rigid Bodies.

COLLOQUIO DI LINGUA TEDESCA:

Scientific spoken German;

ANALISI MATEMATICA 2:

Advanced theory of Differential Calculus,
Theory of Cauchy Integral, Measure Theory, Theory of Lebesgue Integral.

FISICA GENERALE 2:

Electrostatic, Electrodynamics, Magnetism,
Electromagnetism, Geometric Optics, Circuit Theory and Foundations of Electronics.

ESPERIMENTAZIONE FISICA
2:

Wave Optics, Fundamentals of Electronics,
Applications of Classical Theory of Errors and of Fitting Experimental Data
in Laboratory Experiences Connected with Concepts of Electromagnetism Electricity
and Electronics.

COLLOQUIO DI LINGUA INGLESE:

Scientific spoken English;

Third year courses:

LABORATORIO DI FISICA 1:

Black Body Radiation and Measure of
Planck's Constant, Spectroscopy, Spectroscopic Instrumentation and Study
of the Spectra of Elements, Interaction of Photons and Charged Particles
with Matter, Principles of working of Various Detectors (from Geiger counters
to drift chambers), Foundations of Radiation Protection.

ISTITUZIONI DI FISICA TEORICA:

Quantum Mechanics (Hilbert space, distributions,
operators in Hilbert spaces, ...).

METODI MATEMATICI DELLA
FISICA:

Theory of Holomorphic Functions, Theory
of Integration in the Complex Plane, Special Functions, Differential Equations
of Mathematical Physics (in connection with Quantum Mechanics).

GEOMETRIA DIFFERENZIALE:

Manifolds and Fiber Bundles, Classical
Theory of Curves and Surfaces, Riemannian Geometry, Foundations of Symplectic
Geometry.

FISICA SUPERIORE:

Special Relativity, Advanced Topics
in Electromagnetic Theory and Applications (wave guides, ...), Foundations
of Statistical Mechanics, Foundations of Magneto-Hydrodynamics.

Fourth year courses:

RELATIVITA':

General Relativity Theory.

STRUTTURA DELLA MATERIA:

Applications of Quantum Mechanics to
Atomic and Molecular Physics (spectroscopical terms of atoms and molecules,
approximation methods, selection rules, ...).

LABORATORIO DI FISICA 2:

Advanced Topics in Statistical Analysis
of Experimental Data and Applications in Computer Programs, Laboratory Experiences
in the Measure of the Half-Life of
and of the Intensity of Cosmic Rays, Triggering, Data Acquisition Electronics,
Theory and Practice of Scintillator Detectors and Photo-multiplier Tubes,
Semiconductor detectors, Acquisition and Analysis of Photo-light Spectra
of suited Grown Crystals of Semiconductors.

FISICA TEORICA:

Group Theory and Applications to Relativistic
Wave Equations, Quantum Theory of Scattering and of Multiple Scattering,
Symmetry Principle in Quantum Physics.

Graduation Thesis:

Title:
Nucleazione QuantoGravitazionale di Dominii SpazioTemporali;
(QuantoGravitational Nucleation of Space-Time Domains, in Italian);

Supervisor:
Dr. Euro Spallucci.

Experimental ''Short'' Thesis:

Title:
Risoluzione dell'ambiguità D-S per camere a deriva in campo magnetico;
(Resolution of the L-R Ambiguity for Drift Chambers in Magnetic Fields);