Conveners
Lepton Nucleon Scattering Mini-workshop
- Krishna Kumar
Lepton Nucleon Scattering Mini-workshop
- Allison Lung (Jefferson Lab)
Lepton Nucleon Scattering Mini-workshop
- Simonetta Liuti
Lepton Nucleon Scattering Mini-workshop
- Cynthia Keppel (Jefferson Lab)
Will review the current experimental status of the study on nucleon spin structure.
Then present recent results from JLab and discuss the near-term plan.
TBA
There is considerable phenomenological insight into the flavor compositions of nucleon electromagnetic form factors from elastic electron scattering on both the proton and the neutron at low and moderate momentum transfers. The flavor contents extracted so far from the corresponding world data sets impose severe tests on any theoretical description of the electromagnetic structure of the...
The strong scalar fields in a nuclear medium naturally lead to changes in the structure of the bound nucleons. This idea has been developed into a quantitatively successful theory of nuclear structure, which we will briefly review. However, it is vital to test the underlying idea, which is really a paradigm shift for nuclear science. The EMC effect is one of those ways and we will explain why...
A historical overview of parity violating electron scattering will be provided, followed by a motivation and description of ongoing experiments and future prospects.
Traditional nuclear physics regards the nucleus as being composed of bound nucleons and mesons. This picture has had significant success in describing the properties of nuclei across the chart of nuclides. However, the fundamental theory of the strong interaction is QCD, where quarks and gluons are the elementary degrees of freedom. Deep inelastic scattering experiments have long suggested...