Vittorio Lubicz spends much of his time researching Particle physics, Quantum chromodynamics, Physics beyond the Standard Model, CP violation and Lattice QCD. Quark, Standard Model, Unitarity, Meson and Lattice field theory are among the areas of Particle physics where the researcher is concentrating his efforts. His Meson research is multidisciplinary, relying on both Hadron and Lattice.
Within one scientific family, Vittorio Lubicz focuses on topics pertaining to Chiral perturbation theory under Lattice, and may sometimes address concerns connected to Fermion. His Quantum chromodynamics research includes elements of Pion, Nuclear physics and Renormalization. His Physics beyond the Standard Model study combines topics in areas such as Large Hadron Collider, Hamiltonian, Supersymmetry and Flavour.
His primary scientific interests are in Particle physics, Lattice QCD, Quark, Lattice and Meson. His work on Particle physics deals in particular with Unitarity, Pion, Quantum chromodynamics, Fermion and Pseudoscalar. He has researched Unitarity in several fields, including Standard Model, Theoretical physics, Flavour, CP violation and Physics beyond the Standard Model.
His Lattice QCD research is multidisciplinary, incorporating elements of Chiral perturbation theory, Hadron and Cabibbo–Kobayashi–Maskawa matrix. While the research belongs to areas of Quark, he spends his time largely on the problem of Renormalization, intersecting his research to questions surrounding Non-perturbative. His Meson research incorporates themes from Virtual particle, Quenched approximation and Observable.
Vittorio Lubicz focuses on Particle physics, Pion, Meson, Quark and Pseudoscalar. Particle physics connects with themes related to Lattice in his study. He combines subjects such as Chiral perturbation theory and Cabibbo–Kobayashi–Maskawa matrix with his study of Lattice.
His research in Pion intersects with topics in B meson, Flavour and Anomalous magnetic dipole moment. His Meson research integrates issues from Virtual particle and Radiative transfer. His Lattice QCD study also includes
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Review of lattice results concerning low-energy particle physics
S. Aoki;Y. Aoki;Y. Aoki;Y. Aoki;D. Bečirević;C. Bernard.
European Physical Journal C (2011)
Review of lattice results concerning low-energy particle physics: Flavour Lattice Averaging Group (FLAG).
Sinya Aoki;Yasumichi Aoki;Yasumichi Aoki;Yasumichi Aoki;D. Bečirević;Claude Bernard.
European Physical Journal C (2017)
Delta M(K) and epsilon(K) in SUSY at the next-to-leading order
Marco Ciuchini;Livio Conti;Andrea Donini;Enrico Franco.
Journal of High Energy Physics (1998)
Model-independent constraints on Delta F=2 operators and the scale of New Physics
M. Bona;M. Ciuchini;E. Franco.
arXiv: High Energy Physics - Phenomenology (2007)
Model-independent constraints on ΔF = 2 operators and the scale of new physics
M. Bona;M. Ciuchini;E. Franco;V. Lubicz.
Journal of High Energy Physics (2008)
2000 CKM-triangle analysis a critical review with updated experimental inputs and theoretical parameters
Marco Ciuchini;Vittorio Lubicz;Giulio D'Agostini;Enrico Franco.
Journal of High Energy Physics (2001)
The Belle II Physics Book
E. Kou;P. Urquijo;W. Altmannshofer;F. Beaujean.
Progress of Theoretical and Experimental Physics (2019)
The unitarity triangle fit in the standard model and hadronic parameters from lattice QCD: a reappraisal after the measurements of Δms and BR(B→τντ)
Marcella Bona;Marco Ciuchini;Enrico Franco.
Journal of High Energy Physics (2006)
The 2004 UTfit collaboration report on the status of the unitarity triangle in the standard model
Marcella Bona;Marco Ciuchini;Enrico Franco;Vittorio Lubicz.
Journal of High Energy Physics (2005)
Dynamical twisted mass fermions with light quarks: simulation and analysis details
Philippe Boucaud;P. Dimopoulos;Federico Farchioni;Roberto Frezzotti.
Computer Physics Communications (2008)
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