MASTROLIA PIERPAOLO

Recapiti
Posta elettronica
54a787a8eb5d2f6f108d0c7b620c02f6
porta questa
pagina con te
Struttura Dipartimento di Fisica e Astronomia "Galileo Galilei"
Telefono 0498277192
Qualifica Professore associato confermato
Settore scientifico FIS/02 - FISICA TEORICA, MODELLI E METODI MATEMATICI
Rubrica di Ateneo  Visualizza
 

Orario di ricevimento
Giovedì dalle 16:00 alle 18:00 Dipartimento di Fisica, via Marzolo 8, ufficio n. 306. Nei periodi in cui il corso non e' attivo, il ricevimento puo' essere concordato con il docente via email, all'indirizzo: pierpaolo.mastrolia@gmail.com
(aggiornato il 14/07/2013 10:47)

Aree di ricerca
My research interests focus on Theoretical Physics, and in particular on High Energy Particle Physics.

Particle Physics is the study of objects that cannot be hold in one place, either because they escape at the speed of light or because they don't last long enough.
Therefore the only possibility we have to study elementary particles is the investigation of their interaction through their collision and the analysis of its consequences.
The physical quantity that describes the interaction process is the scattering cross section, which depends on the quantum mechanical probability of the collision to take place. The probability density is described by the so called scattering amplitude, which encodes the transition effects between the initial-state and the final-state particles.

The improving of the experimental precision in Particle Physics naturally demands for more accurate calculations from the theoretical side. Perturbation theory is among the best way we dispose for describing the quantum behavior of particles; and higher accuracy within a perturbative expansions is reached by including terms which beyond the leading order are represented by loop diagrams.
Loop diagrams are as well a key of access the physics beyond the range of sensitivity of the current experiments, because of the room heavier particles have to circulate around the loop, as quantum corrections.

Our aim is the improvement of the theoretical description of radiative corrections in Quantum Field Theory by using the most advanced computational techniques of mathematical physics based on the exploitation of the iterative structure of scattering amplitudes which emerges from the use of complex momenta.
The recent boost in the progress of evaluating on-shell scattering amplitudes is due to the exploitation of qualitative information on their analytic properties, such as factorization and unitarity, which have been quantitatively turned into tools for computing them.

Pubblicazioni
La lista completa delle pubblicazioni puo' essere consultata al seguente url:

http://inspirehep.net/search?ln=en&ln=en&p=a+mastrolia&of=hb&action_search=Search&sf=&so=d&rm=&rg=25&sc=0

Insegnamenti dell'AA 2018/19
Corso di studio (?) Curr. Codice Insegnamento CFU Anno Periodo Lingua Responsabile
IN0505 COMUNE IN29103186 FISICA 1 (Ult. numero di matricola da 0 a 4)
Info e programma A.A. 2018/19
9 I Secondo
semestre
ITA PIERPAOLO MASTROLIA
IN0510 COMUNE IN29103186 FISICA 1 (Ult. numero di matricola da 0 a 4)
Info e programma A.A. 2018/19
9 I Secondo
semestre
ITA PIERPAOLO MASTROLIA
SC2382 001PD SCP7081657 THEORETICAL PHYSICS OF THE FUNDAMENTAL INTERACTIONS
Info e programma A.A. 2018/19
6 I Primo
semestre
ENG PIERPAOLO MASTROLIA
SC2382 003PD SCP7081657 THEORETICAL PHYSICS OF THE FUNDAMENTAL INTERACTIONS
Info e programma A.A. 2018/19
6 I Primo
semestre
ENG PIERPAOLO MASTROLIA
SC2382 004PD SCP7081657 THEORETICAL PHYSICS OF THE FUNDAMENTAL INTERACTIONS
Info e programma A.A. 2018/19
6 I Primo
semestre
ENG PIERPAOLO MASTROLIA
SC2443 COMUNE SCP7081657 THEORETICAL PHYSICS OF THE FUNDAMENTAL INTERACTIONS
Info e programma A.A. 2018/19
6 I Primo
semestre
ENG PIERPAOLO MASTROLIA