Giuseppe Pablo CIRRONE

Adjunct Professor of Unspecified (for external staff) [N/A]

Research career

    • 2018 - today: Senior Researcher at the Italian Institute for Nuclear Physics (INFN-LNS) in Catania (I)
    • 2018 - today: Contract professor of “Medical Physics” at the Master of Science in Physics  (Physics and Astronomy Department “E. Majorana”), University of Catania (I)
    • 2017 - today: responsible of the Multidisciplinary Irradiation beamlines of INFN-LNS
    • 2015 - 2018:  National Responsible of the ELIMED project for the realisation of a transport beamline from ion accelerated in laser-matter interaction
    • 2013 - 2014:  contract professor for the “Nursery science” course, University of Catania (I)
    • 2012 - today: local responsible of the Multidisciplinary group of INFN
    • 2010 - today: Nazional Responsible of the MC-INFN (Monte Carlo at INFN) project funded by the Committee V of INFN
    • 2009 - 2018:  Researcher at the the Italian Institute for Nuclear Physics (INFN-LNS) in Catania (I)
    • 2001 - 2009:  High School Professor for the Physics teaching

Education

    • 1998: Master degree in Physics (Nuclear Physics specialisation), University of Catania (I)
    • 2001: Medical Physics qualification degree, University of Florence (I)
    • 2003: Ph.D. in Physics, University of Catania (I)

ORCiD: http://orcid.org/0000-0001-5733-9281
Patents
    1. SILICON CARBIDE IONIZING RADIATION DETECTOR | [DÉTECTEUR DE RAYONNEMENT IONISANT AU CARBURE DE SILICIUM]; Patent number: WO2020012288
    2. METHOD FOR MEASURING RADIOTHERAPY DOSES | [PROCÉDÉ DE MESURE DE DOSES DE RADIOTHÉRAPIE]; Patent number: WO2019025933
    3. DEVICE AND METHOD FOR IMAGING AND ENHANCED PROTON-THERAPY TREATMENT USING NUCLEAR REACTIONS | [VORRICHTUNG UND VERFAHREN ZUR ABBILDUNG UND VERBESSERTEN PROTONENTHERAPIEBEHANDLUNG MIT NUKLEARREAKTIONEN]; Patent number: number EP3266470

VIEW THE COURSES FROM THE A.Y. 2022/2023 TO THE PRESENT

Academic Year 2021/2022


Academic Year 2020/2021


Academic Year 2019/2020

    • Hadrontherapy
    • Radiation dosimetry of charged particles
    • Monte Carlo simulations for medical applications
    • Transport and diagnostic of beams accelerated in laser-matter interaction

 

Teaching material: https://sites.google.com/view/medicalphysicsgroup-infnlns/didactic-material