CEBAF Center, Room F113
Monday, January 11th
10:00am - Jose Manuel Alarcon Soriano (Bonn U.)
Chiral effective field theory for hadron and nuclear physics
Abstract: In this talk I will show some recent applications of chiral effective field theory to the study of some fundamental hadronic processes, and the contribution of these results to searches of physics beyond the standard model. Finally, I will comment briefly on the combination of lattice techniques and chiral effective field theory to address many-body nuclear problems from first principles.
Nucleon strange electromagnetic form factors from lattice QCD
10:45am - Jacobo Ruiz de Rivera (Bonn U.)
Roy-Steiner-equation analysis of pion-nucleon scattering
Abstract: A precise understanding of low-energy pion-nucleon interactions is central for many areas in nuclear and hadronic physics, ranging from the scalar couplings of the nucleon to the long-range part of two-pion-exchange potentials and three-nucleon forces in Chiral Effective Field Theory. We present a calculation that combines the general principles of analyticity, unitarity, and crossing symmetry with modern high-precision data of hadronic atoms, leading to a phenomenological description of the pion-nucleon amplitude with unprecedented rigor and accuracy. Consequences for the pion-nucleon sigma-term and the matching to Chiral Perturbation Theory will be discussed.
11:30am - Johannes Kirscher (Hebrew U.)
Effective nuclear theories and lattice QCD
Nucleons are composite objects. Their constituents, quarks and gluons, are described by quantum chromodymanics, a theory that can be solved in discretized space time. I will outline a program to relate this solution in the multi-baryon sector to effective field theories for nuclei. The goal is a fundamental derivation of the nuclear theory, thereby parameterizing the nuclear landscape with relatively few constants of the Standard Model. After introducing this program, I will give an overview of the existing lattice-QCD data base before presenting the results for characteristic few-nucleon observables which emerge from this data. I will detail my personal contribution including the application of the pionless effective field theory and the assessment of the pion-mass dependence of nuclear peculiarities like the Phillips and Tjon correlations. The outlook on imminent projects focuses on the pion-mass-dependence of electromagnetic properties of nuclei (moments and constituent Coulomb interaction).