Riccardo Barbieri

Riccardo Barbieri (born 1944) is an Italian theoretical physicist and a professor at the Scuola Normale Superiore di Pisa. He has written more than two hundred research papers in the field of theoretical elementary particle physics,[1] and has been particularly influential in physics beyond the Standard Model.

Riccardo Barbieri
Born1944
NationalityItalian
Known forPhysics beyond the Standard Model, Supersymmetry, Quantum field theory
Scientific career
FieldsTheoretical physicist
InstitutionsScuola Normale Superiore di Pisa

Research career

Riccardo Barbieri received his undergraduate education in 1963-67 at the Scuola Normale Superiore in Pisa and at the University of Pisa. His laurea advisor was Pietro Menotti. During his Ph.D. (perfezionamento) in 1967-69 at the Scuola Normale Superiore and in later years he worked on higher-order radiative corrections in Quantum Electrodynamics with Ettore Remiddi. In the 1970s he turned to computations in Quantum Chromodynamics, collaborating in particular with Raoul Gatto and Zoltan Kunszt. In 1976 at CERN, he made the prediction, later experimentally verified, of the hadronic widths of the three charmonium P-waves.[2][3]

In 1980-82, Riccardo Barbieri was a staff member at the CERN Theory Division. The Standard Model of particle physics by then well established, he started focussing on models beyond the Standard Model, in particular supersymmetry. In 1982, he formulated the first realistic model of mediation of supersymmetry breaking via supergravity.[4]

Since 1984 and until now, Riccardo Barbieri has been professor of theoretical physics at Pisa, first at the University of Pisa (1984–97), and then at the Scuola Normale Superiore (1998–present). Some of his most influential results in this period include:

  • In 1988, the quantitative formulation of the naturalness concept in supersymmetric models.[5]
  • In 1990, the formulation of a reference parametrization of the quantum corrections to the electroweak precision observables.[6]
  • In 1995, pointing out the significance of flavour and CP violations in supersymmetric unified theories even in absence of any flavour or CP violation in the input for the soft-supersymmetry breaking parameters.[7]
  • In 2006, the proposal of a Dark Matter model based on a second Higgs doublet without vacuum expectation value.[8]

Mentoring

Having taught in Pisa for 30 years, Riccardo Barbieri is acclaimed for creating a numerous and flourishing school of theoretical high energy physics. Among many of his students and postdocs who went on to become professors of theoretical physics in Italy and around the world, are Gian F. Giudice and Michelangelo Mangano (permanent staff members at the CERN), Riccardo Rattazzi (professor at the EPFL), Francesco Vissani (INFN director of research at Laboratori Nazionali del Gran Sasso), Alessandro Strumia (professor at the University of Pisa), Andrea Romanino (professor at SISSA), Roberto Contino (professor at Scuola Normale Superiore, Pisa), Paolo Creminelli (professor at the ICTP), Michele Papucci (Divisional Fellow at the Berkeley National Laboratory ), Gia Dvali (professor at the LMU Munich), Vyacheslav Rychkov (professor at the IHES), Stefania Gori (professor at UC Santa Cruz).

Famous quotes

Elementary particle physics is the quadrant of nature whose laws can be written in a few lines with absolute precision and the greatest empirical adequacy.[9]

Awards and honors

Prof. Barbieri was awarded the "Ordine del Cherubino" from the University of Pisa in 1997, the Humboldt Prize and, more recently, the Physics Prize of "Accademia Nazionale dei Lincei" in 2017. He was also a Miller Visiting Professor at the University of California, Berkeley.

Books

References

  1. http://inspirehep.net/author/R.Barbieri.1
  2. Barbieri, R.; R. Gatto; R. Kögerler (1976). "Calculation of the annihilation rate of P wave quark-antiquark bound states" (PDF). Physics Letters B. 60 (2): 183–188. Bibcode:1976PhLB...60..183B. doi:10.1016/0370-2693(76)90419-6. ISSN 0370-2693.
  3. Barbieri, R.; R. Gatto; E. Remiddi (1976). "Singular binding dependence in the hadronic widths of 1++ and 1+− heavy quark antiquark bound states". Physics Letters B. 61 (5): 465–468. Bibcode:1976PhLB...61..465B. doi:10.1016/0370-2693(76)90729-2. ISSN 0370-2693.
  4. Riccardo Barbieri; Sergio Ferrara; Calos Savoy (1982). "Gauge Models with Spontaneously Broken Local Supersymmetry". Phys. Lett. B. 119 (4–6): 343–347. Bibcode:1982PhLB..119..343B. doi:10.1016/0370-2693(82)90685-2.
  5. Riccardo Barbieri; Gian F. Giudice (1988). "Upper Bounds on Supersymmetric Particle Masses". Nucl. Phys. B. 306 (1): 63–76. Bibcode:1988NuPhB.306...63B. doi:10.1016/0550-3213(88)90171-X.
  6. Riccardo Barbieri; Guido Altarelli (1991). "Vacuum polarization effects of new physics on electroweak processes". Phys. Lett. B. 253 (1–2): 161–167. Bibcode:1991PhLB..253..161A. doi:10.1016/0370-2693(91)91378-9.
  7. Riccardo Barbieri; Lawrence J. Hall; Alessandro Strumia (1995). "Violations of lepton flavor and CP in supersymmetric unified theories". Nucl. Phys. B. 405 (2–3): 219–251. arXiv:hep-ph/9501334. Bibcode:1995NuPhB.445..219B. doi:10.1016/0550-3213(95)00208-A. S2CID 14445005.
  8. Barbieri, Riccardo; Lawrence Hall; Vyacheslav Rychkov (2006). "Improved naturalness with a heavy Higgs boson: An alternative road to CERN LHC physics". Physical Review D. 74 (1): 015007. arXiv:hep-ph/0603188. Bibcode:2006PhRvD..74a5007B. doi:10.1103/PhysRevD.74.015007. S2CID 15412955.
  9. Barbieri, Riccardo (2007). Lectures on the electroweak interactions. Pisa, Italy: Edizione della Normale. ISBN 978-88-7642-311-6.
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