Prof.
Skwarnicki Tomasz
(Syracuse University)
3/13/18, 9:30 AM
B-factory, charm-factory and hadron-collider experiments have produced evidence for a large number of heavy hadronic structures with unusual properties. We will discuss their experimental signatures, together with underlying uncertainties and future prospects for improvement.
Dr
Jorge Segovia
(Institut de Física d'Altes Energies (IFAE) / Universitat Autònoma de Barcelona (UAB))
3/13/18, 10:00 AM
The unambiguous establishment of a gluonic spectroscopy (glueballs and quark-gluon hybrids) will change the way we think the matter is constructed: gluons participate at the same level than quarks in building it. This feature is unique in quantum chromodynamics (QCD) and can be traced back to the self-interaction capacity of gluons. It is difficult to single out which states of the hadronic...
Prof.
Adam Szczepaniak
(Indiana University)
3/13/18, 10:30 AM
I will talk about the S matrix approach to describe 2 and 3 body hadron interactions
Prof.
Eric Swanson
(University of Pittsburgh)
3/13/18, 12:00 PM
The phenomenology of the LHCb pentaquarks is studied with special attention to the role that hadronic interactions play. Among these are electroweak decays, final state interactions, and one-pion exchange.
Elena Santopinto
(INFN)
3/13/18, 3:30 PM
Theoretical predictions on hybrid and pentaquark spectroscopy will be presented and discussed
Prof.
Feng-Kun Guo
(Institute of Theoretical Physics, CAS)
3/13/18, 4:30 PM
Since the discovery of the D_{s0}^*(2317) and the D_{s1}(2460) in 2003, there have been 3 puzzles in the spectroscopy of positive-parity charm mesons: (1) why are the D_{s0}^*(2317) and D_{s1}(2460) masses much lower than the quark model predictions for the lowest positive parity charm mesons? (2) why is the mass difference between the D_{s0}^*(2317) and the D_{s1}(2460) is equal to that...