Nucleon 3D imaging program with soLID at Jefferson Lab
Publication
, Conference
Zhao, Z; Liu, T; Gao, H
Published in: Proceedings of Science
January 1, 2018
The 3D imaging of nucleon is at the frontier of understanding the visible Universe and QCD. There are many efforts to access the nucleon’s 3D partonic structure both in the transverse coordinate space (Generalized Parton Distributions) and in the transverse momentum space (Transverse Momentum Dependent distributions). The proposed Solenoidal Large Intensity Device (SoLID) in Hall A at Jefferson Lab will fully utilize the great physics potential of the 12-GeV energy upgrade by combining high luminosities and large acceptance to allow high precision measurements of the observables of interest in a wide kinematic region. We present an overview of the experiment plan and highlight some of the expected physics results.
Duke Scholars
Published In
Proceedings of Science
EISSN
1824-8039
Publication Date
January 1, 2018
Volume
346
Citation
APA
Chicago
ICMJE
MLA
NLM
Zhao, Z., Liu, T., & Gao, H. (2018). Nucleon 3D imaging program with soLID at Jefferson Lab. In Proceedings of Science (Vol. 346).
Zhao, Z., T. Liu, and H. Gao. “Nucleon 3D imaging program with soLID at Jefferson Lab.” In Proceedings of Science, Vol. 346, 2018.
Zhao Z, Liu T, Gao H. Nucleon 3D imaging program with soLID at Jefferson Lab. In: Proceedings of Science. 2018.
Zhao, Z., et al. “Nucleon 3D imaging program with soLID at Jefferson Lab.” Proceedings of Science, vol. 346, 2018.
Zhao Z, Liu T, Gao H. Nucleon 3D imaging program with soLID at Jefferson Lab. Proceedings of Science. 2018.
Published In
Proceedings of Science
EISSN
1824-8039
Publication Date
January 1, 2018
Volume
346