Conveners
R1-6 Testing the Standard Model and Searches for New Physics at Intermediate Energies (DNP) | Tests du modèle standard et recherche de nouvelle physique aux énergies intermédiaires (DPN)
- Wouter Deconinck
-
Prof. Garth Huber09/06/2022, 08:45Nuclear Physics / Physique nucléaire (DNP-DPN)Invited Speaker / Conférencier(ère) invité(e)
The Solenoidal Large Intensity Device (SoLID) is a proposed next-generation
Go to contribution page
detector to be installed at Jefferson Lab, to study hadronic structure at high
luminosity ($>10^{37}$/s/cm$^2$) over the broad kinematic range enabled by the
12 GeV electron beam of the Continuous Electron Beam Accelerator. SoLID's
symmetric azimuthal acceptance will enable Generalized Parton Distributions
(GPDs)... -
Zisis Papandreou09/06/2022, 09:15Nuclear Physics / Physique nucléaire (DNP-DPN)Invited Speaker / Conférencier(ère) invité(e)
Precision measurements of several eta and eta′ decay channels, with emphasis on rare neutral modes, will be carried out at the Jefferson Lab Eta Factory (JEF) in 2024 using an upgraded GlueX detector in Hall D. The combination of highly-boosted eta/eta′ production, recoil proton detection, and a new fine-granularity high-resolution 1600-crystal lead-tungstate insert in the forward calorimeter...
Go to contribution page -
Dr Kyle Shiells (Center for Nuclear Femtography)09/06/2022, 09:45Nuclear Physics / Physique nucléaire (DNP-DPN)Invited Speaker / Conférencier(ère) invité(e)
Generalized parton distribution functions (GPDs) hold unprecedented information about the structure of hadrons. One prime example of what they can tell us is how the proton and neutron acquire their observable spin of 1/2, through what are known as spin sum rules. In the first part of this talk, I will discuss these spin sum rules, including one which is most accessible experimentally. ...
Go to contribution page