Spin duality in the nucleon: Measurements at Jefferson Lab Hall A
Mar 15, 20054 pages
Part of Proceedings, 2nd International Workshop on Structure of the Nucleon at Large Bjorken x (HiX2004) : Marseille, France, July 26-28, 2004, 118-121
Published in:
- AIP Conf.Proc. 747 (2005) 1, 118-121
Contribution to:
- , 118-121
- HiX2004
- Published: Mar 15, 2005
DOI:
Report number:
- JLAB-PHY-05-294
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Abstract: (AIP)
The Bloom‐Gilman duality has been experimentally demonstrated for spin independent structure functions. Duality is observed when the smooth scaling curve at high momentum transfer is an average over the resonance bumps at lower momentum transfer, but at the same value of scaling variable x. Signs of quark‐hadron duality for the spin Dependant structure function g 1 of the proton has been recently reported by the Hermes collaboration and the Jefferson lab Hall B collaboration. Jefferson Lab experiment 01‐012 used the polarized 3 He target in Hall A for a precision extraction of the neutron spin structure function g 1 n and the virtual photon asymmetry A 1 n in the resonance region up to Q 2 = 4(GeV/c)2. Data from E01‐012 combined with Deep‐Inelastic‐Scattering data will provide a precision test of quark‐hadron duality predictions for neutron spin structure functions. This will be one of the first precision tests of spin and flavor dependence of quark‐hadron duality. The demonstration of duality for spin structure functions will enable the use of resonance data to study the nucleon spin structure in the very high x region.- 13.60.Hb
- 12.40.Nn
- 14.20.Dh
- nucleons
- dual models
- baryon spin
- quark-hadron interactions
- deep inelastic scattering
- protons
- neutrons
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