Q2 evolution of the neutron spin structure moments using a 3He target

M Amarian; L Auerbach; T Averett; J Berthot; P Bertin; B Bertozzi; T Black; E Brash; D Brown; E Burtin; J Calarco; G Cates; Z Chai; J-P Chen; Seonho Choi; E Chudakov; E Cisbani; C W De Jager; A Deur; R DiSalvo; S Dieterich; P Djawotho; M Finn; K Fissum; H Fonvieille; S Frullani; H Gao; J Gao; F Garibaldi; A Gasparian; S Gilad; R Gilman; A Glamazdin; C Glashausser; E Goldberg; J Gomez; V Gorbenko; J-O Hansen; B Hersman; R Holmes; G M Huber; E Hughes; B Humensky; S Incerti; M Iodice; S Jensen; X Jiang; C Jones; G Jones; M Jones; C Jutier; A Ketikyan; I Kominis; W Korsch; K Kramer; K Kumar; G Kumbartzki; M Kuss; E Lakuriqi; G Laveissiere; J Lerose; M Liang; N Liyanage; G Lolos; S Malov; J Marroncle; K McCormick; R McKeown; Z-E Meziani; R Michaels; J Mitchell; Z Papandreou; T Pavlin; G G Petratos; D Pripstein; D Prout; R Ransome; Y Roblin; D Rowntree; M Rvachev; F Sabatie; A Saha; K Slifer; P Souder; T Saito; S Strauch; R Suleiman; K Takahashi; S Teijiro; L Todor; H Tsubota; H Ueno; G Urciuoli; R Van Der Meer; P Vernin; H Voskanian; B Wojtsekhowski; F Xiong; W Xu; J-C Yang; B Zhang; P Zolnierczuk

doi:10.1103/PhysRevLett.92.022301

Q2 evolution of the neutron spin structure moments using a 3He target

Phys Rev Lett. 2004 Jan 16;92(2):022301. doi: 10.1103/PhysRevLett.92.022301. Epub 2004 Jan 16.

Authors

M Amarian¹, L Auerbach, T Averett, J Berthot, P Bertin, B Bertozzi, T Black, E Brash, D Brown, E Burtin, J Calarco, G Cates, Z Chai, J-P Chen, Seonho Choi, E Chudakov, E Cisbani, C W De Jager, A Deur, R DiSalvo, S Dieterich, P Djawotho, M Finn, K Fissum, H Fonvieille, S Frullani, H Gao, J Gao, F Garibaldi, A Gasparian, S Gilad, R Gilman, A Glamazdin, C Glashausser, E Goldberg, J Gomez, V Gorbenko, J-O Hansen, B Hersman, R Holmes, G M Huber, E Hughes, B Humensky, S Incerti, M Iodice, S Jensen, X Jiang, C Jones, G Jones, M Jones, C Jutier, A Ketikyan, I Kominis, W Korsch, K Kramer, K Kumar, G Kumbartzki, M Kuss, E Lakuriqi, G Laveissiere, J Lerose, M Liang, N Liyanage, G Lolos, S Malov, J Marroncle, K McCormick, R McKeown, Z-E Meziani, R Michaels, J Mitchell, Z Papandreou, T Pavlin, G G Petratos, D Pripstein, D Prout, R Ransome, Y Roblin, D Rowntree, M Rvachev, F Sabatie, A Saha, K Slifer, P Souder, T Saito, S Strauch, R Suleiman, K Takahashi, S Teijiro, L Todor, H Tsubota, H Ueno, G Urciuoli, R Van Der Meer, P Vernin, H Voskanian, B Wojtsekhowski, F Xiong, W Xu, J-C Yang, B Zhang, P Zolnierczuk

Affiliation

¹ Yerevan Physics Institute, Yerevan 375036, Armenia.

PMID: 14753931
DOI: 10.1103/PhysRevLett.92.022301

Abstract

We have measured the spin structure functions g(1) and g(2) of 3He in a double-spin experiment by inclusively scattering polarized electrons at energies ranging from 0.862 to 5.058 GeV off a polarized 3He target at a 15.5 degrees scattering angle. Excitation energies covered the resonance and the onset of the deep inelastic regions. We have determined for the first time the Q2 evolution of Gamma(1)(Q2)= integral (1)(0)g(1)(x,Q2)dx, Gamma(2)(Q2)= integral (1)(0)g(2)(x,Q2)dx, and d(2)(Q2)= integral (1)(0)x(2)[2g(1)(x,Q2)+3g(2)(x,Q2)]dx for the neutron in the range 0.1< or =Q2< or =0.9 GeV2 with good precision. Gamma(1)(Q2) displays a smooth variation from high to low Q2. The Burkhardt-Cottingham sum rule holds within uncertainties and d(2) is nonzero over the measured range.