Tutti i giorni, previo appuntamento.
Posizioni Accademiche
Associazioni Scientifiche
Abilitazioni
Titoli di Studio Universitari
Partecipazione a Gruppi di Ricerca:
Organizzazione di Conferenze e Workshop
Altri Incarichi Scientifici
Riconoscimenti per l'attività di ricerca
Esperienza didattica
Corsi universitari
Seminari per studenti
Supervisione di tesi (Master e PhD)
Altre attività didattiche
Attività Divulgative
Lista delle Pubblicazioni
Ho prodotto 40 articoli di ricerca pubblicati su riviste internazionali con peer-review e 10 proceedings per seminari a conferenze internazionali. Ho scritto una monografia pubblicata da Springer nella collana Lecture Notes in Physics. Ho anche contribuito a 15 report scientifici.La lista completa delle mie pubblicazioni è reperibile su InspirehepPubblicazioni su Riviste Internazionali con Referee
Monografie
Proceedings e Report
SeminariHo tenuto 50+ seminari a conferenze internazionali e sono stato invitato a dare 30+ seminari in università e instituti di ricerca.Selezione di seminari su invito a conferenze internazionali
Legenda
Academic Appointments
Association with other research institutes
Habilitations
Education: Undergraduate and postgraduate studies
Participation in Research Grants
Organization of Conferences, Workshops and Schools
Scientific Responsibilities
Teaching Experience
Student Supervision
Outreach
Research interestsThe main part of my research activity is devoted to the study the Higgs, electroweak and flavor dynamics in the Standard Model (SM) and its extensions. My interests range from the theoretical analysis of new-physics theories, to more phenomenological subjects oriented to collider experiments and cosmology.I acquired extensive expertise on beyond the SM theories, with particular focus on scenarios with new strongly coupled dynamics (composite Higgs models). In this context, one of my key achievements is the identification of a strong correlation among the Higgs mass, the presence of light top partners and the amount of tuning needed for a realistic electroweak symmetry breaking. These results have fundamental experimental consequences, since they single out the top partners as a privileged way to directly test a large class of composite Higgs models at colliders. Another important result I obtained is the development of the effective field theory formalism for parametrizing the phenomenology of the top partners. This framework is now used by the ATLAS and CMS collaborations to report the measurements on single production of new vector-like quarks.I also have a strong research record in SM studies and model-independent tests of new physics. In this area, two of my key results are the analysis of the Higgs self-couplings at present and future colliders and the exploitation of di-lepton Drell-Yan production and di-boson processes at the LHC as a way to improve the determination of the precision EW observables. At present I am also particularly interested in machine learning applications for the analysis of collider data.
List of Publications
I wrote 37 research papers published on peer-reviewed international journals and 8 proceedings for talks at international conferences. I wrote a monograph published in the Lecture Notes in Physics series by Springer. I also contributed to 10 scientific reports.The full list of my publication is available on InspirehepPublications on International Journals
Monographs
Proceedings and Reports
Talks and Seminars
I gave 50+ talks at international conferences and I was invited to give 30+ seminars at universities and research institutes.Highlights from invited talks at international conferences
The main part of my research activity is devoted to the study the Higgs, electroweak and flavor dynamics in the Standard Model of Particle Physics and its extensions. My interests range from the theoretical analysis of new-physics theories, to more phenomenological subjects oriented to collider experiments and cosmology.I acquired extensive expertise on beyond-the-Standard-Model theories, with particular focus on scenarios with new strongly coupled dynamics (composite Higgs models). In this context, one of my key achievements is the identification of a strong correlation among the Higgs mass, the presence of light top partners and the amount of tuning needed for a realistic electroweak symmetry breaking. These results have fundamental experimental consequences, since they single out the top partners as a privileged way to directly test a large class of composite Higgs models at colliders. Another important result I obtained is the development of the effective field theory formalism for parametrizing the phenomenology of the top partners. This framework is now used by the ATLAS and CMS collaborations to report the LHC measurements on single production of new vector-like quarks.I also have a strong research record in Standard-Model studies and model-independent tests of new physics. In this area, two of my key results are the analysis of the Higgs self-couplings at present and future colliders and the exploitation of di-lepton Drell-Yan production and di-boson processes at the LHC as a way to improve the determination of the precision electroweak observables. At present I am also interested in machine learning applications for the analysis of experimental data.