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Master Thesis

  • Cosmological and phenomenological implications of supersymmetric 4-dimensional models obtained in the low-energy limit of string compactification (Michele Cicoli)

  • Double folding (in collaboration with M. Vorabbi, BNL): development of an optical potential for nucleus-nucleus scattering (Paolo Finelli)

  • Faddeev equations (in collaboration with M. Vorabbi, BNL): study of alpha-alpha systems within a few-boy approximation, ground state and excited states of alpha cluster systems (Paolo Finelli)

  • Inverse Kohn Sham mean field approaches for finite nuclei with microscopic “ab-initio” potentials (Paolo Finelli)

  • Local Potentials (in collaboration with M. Vorabbi, BNL): development of local version of successful non-local potentials and applications with FRESCO and TALYS codes (Paolo Finelli)

  • Pandora experiment (in collaboration with A. Mengoni, ENEA): Beta decay processes in a plasma environment (Paolo Finelli)

  • Trojan Horse Method (Paolo Finelli)

  • nTOF theory (in collaboration with C. Massimi, DIFA): high-energy fission processes, high energy pn scattering (Glauber Theory) (Paolo Finelli)

  • FOOT theory (in collaboration with R. Spighi, INFN): to be defined (Paolo Finelli)

  • Quasielastic electron (e,e’p) scattering (in collaboration with C. Giusti, Pavia U.) (Paolo Finelli)

  • Machine learning applications to nuclear physics. (Paolo Finelli)

  • Collective modes and quantum phase transitions in nuclei (Paolo Finelli)

  • Non-perturbative and exact calculation of physical quantities and relations in Quantum Mechanics, Quantum Field and String Theories, with emphasis in gauge and gravity theories and their dualities  (Davide Fioravanti)
  • Several theses are available for topics in gravity theory with applications to black holes and cosmology (Roberto Casadio, Alexander Kamenshchik, Alessandro Tronconi).

 

 

 

Ph.D. Thesis

Non-perturbative and exact calculation of physical quantities and relations in Quantum Mechanics, Quantum Field and String Theories, with emphasis in gauge and gravity theories and their dualities  (Davide Fioravanti)