Current position: Ph.D. Student in Theoretical Physics and Tutor for the undergraduate course “Istituzioni di Fisica Teorica” at the University of Catania.
2017-2019: Master's Degree in Physics (Theoretical Physics curriculum) at the University of Catania with full marks (110/110 cum laude). Thesis: “Perturbation theory of non-perturbative Yang-Mills theory: a massive expansion from first principles” (arXiv:1910.13022).
2014-2017: Bachelor's Degree in Physics at the University of Catania with full marks (110/110 cum laude). Thesis: “Mass generation and deconfinement in pure Yang-Mills theory: a variational study” (arXiv:1803.02335).
Currently doing research on the non-perturbative regime of QCD. The main objective is to formulate a non-ordinary perturbative framework in which – in compliance with the results of lattice QCD – the gluons are allowed to develop a dynamical mass at low energies, while the IR Landau pole of ordinary perturbation theory is prevented from appearing in the running of the strong coupling constant.
G. Comitini, D. Rizzo, M. Battello, and F. Siringo, "Screened massive expansion of the quark propagator in the Landau gauge", Phys. Rev. D 104, 074020 (2021).
F. Siringo and G. Comitini, "Thermal extension of the screened massive expansion in the Landau gauge", Phys. Rev. D 103, 074014 (2021).
G. Comitini and F. Siringo, "One-loop RG improvement of the screened massive expansion in the Landau gauge", Phys. Rev. D 102, 094002 (2020).
F. Siringo and G. Comitini, “Gluon propagator in linear covariant Rξ gauges”, Phys. Rev. D 98, 034023 (2018).
G. Comitini and F. Siringo, “Variational study of mass generation and deconfinement in Yang-Mills theory”, Phys. Rev. D 97, 056013 (2018).