Dr. Irinel Caprini
Senior Researcher I
Institute of Atomic Physics, 1974 (supervisor Serban Titeica)
+40-(0)21-4046255 (ext. 3418)
high energy theory, particle physics, quantum field theory
quantum chromodynamics, hadron physics, flavour physics, beyond standard model


Perturbative Quantum Chromodynamics:  hyperasymptotics, transseries and the origin of quark-hadron duality violation; quark-hadron duality violation from models of hadron resonances;  testing duality violation with functional analysis; improved perturbative series;  conformal mappings of the Borel plane; determination of the strong coupling  from hadronic decays of the tau lepton

Precision predictions in hadron physics: charge radius of the pion,  constraints on the parameters of effective theories, mass and width of the lowest resonance in QCD

Precision tests of the standard model: low-energy hadronic contribution to muon magnetic anomaly, onset of perturbative QCD for exclusive observables

Flavour physics: model-independent constraints on quark masses; model-independent parametrizations of semileptonic form factors; determination of the CKM matrix elements

Physics beyond standard model and LHC physics


  1. D. Boito, I. Caprini, M. Golterman, K. Maltman, S. Peris, Hyperasymptotics and quark-hadron duality violations in QCD, Phys. Rev. D97, 054007 (2018).
  2. B. Ananthanarayan, I. Caprini, D. Das, Electromagnetic charge radius of the pion at high precision, Phys. Rev. Lett. 119, 132002 (2017).
  3. I. Caprini, J. Fischer, Alpha(s) from tau decays: contour-improved versus fixed-order summation in a new QCD perturbation expansion, Eur. Phys. J. C64, 35 (2009).
  4. I. Caprini, G. Colangelo, H. Leutwyler, Mass and width of the lowest resonance in QCD, Phys. Rev. Lett. 96, 132001 (2006).
  5. I. Caprini, L. Lellouch, M. Neubert, Dispersive bounds on the shape of anti-B --> D(*) lepton anti-neutrino form-factors, Nucl. Phys. B530, 153 (1998).
Funding Agencies: