Argonne National Laboratory

Upcoming Events

Revealing the Structure of Pseudoscalar Mesons

Physics Division Theoretical Physics Seminar
Khépani Raya, IFM-UMSNH
January 4, 2018 10:00AM to 11:00AM
Building 203, Room B221

Abstract: Dynamical chiral symmetry breaking and confinement are two emergent phenomena of quantum chromodynamics (QCD), orchestrating the observed spectrum of hadrons and their static as well dynamic properties, providing as much as 98% mass of the luminous matter that permeates our universe. Their study in the continuum can be carried out naturally through QCD's fundamental field equations, namely, Dyson-Schwinger equations to predict a host of hadronic observables.

We study the internal structure of neutral pseudoscalar mesons via two photon transition form factors. The evolution of these form factors as a function of the probing momentum of the photons is governed by the parton distribution amplitude. Our analysis is based on a symmetry preserving treatment of Dyson-Schwinger and Bethe-Salpeter equations. Within a single systematic and consistent approach, with a traceable connection to QCD, the description of these form factors, pion elastic form factor, parton distribution amplitudes, and many other hadron properties is obtained satisfactorily and predictions are made for future experiments.