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Sep 24 – 29, 2023
US/Eastern timezone

Diquarks and Hidden Color States in Hadrons and Nuclei: Spin, Mass & Momentum

Not scheduled
20m
Junior Ballroom D3 (Durham Convention Center)

Junior Ballroom D3

Durham Convention Center

Talk Spin physics in Nuclear Reactions and Nuclei Spin physics in Nuclear Reactions and Nuclei

Speaker

Jennifer Rittenhouse West (Berkeley Lab and the EIC Center at Jefferson Lab)

Description

Diquark bonds formed with valence quarks from two different nucleons have been proposed as the fundamental quantum chromodynamics (QCD) physics causing short-range correlations (SRC) in nuclei. The 12-quark "hexadiquark" hidden-color QCD state - effectively two SRC bound together - is also proposed as the cause of distortions of quark distribution functions in nuclei. While SRC have been extensively studied both experimentally and theoretically, notably by the CLAS collaboration in conjunction with the EMC effect, their underlying cause at the QCD level has remained a mystery. The diquark formation model, if shown to be the source of SRC in nuclei, represents a breakdown of the assumption of scale separation in effective field theories and forms a bridge between fundamental QCD and nuclear physics. Diquarks and hidden-color state effects on hadron and nuclear spin will be discussed, with a focus on the deuteron.

Primary author

Jennifer Rittenhouse West (Berkeley Lab and the EIC Center at Jefferson Lab)

Presentation materials

There are no materials yet.