The nuclear effects in g_{1³rm{He}} and the Bjorken sum rule for A=3

L.Frankfurt (1) , V. Guzey (2) , M. Strikman (2) ((1) School of Physics And Astronomy , Raymond , Beverly Sackler Faculty of Exact Science , Tel Aviv University , Ramat Aviv , Israel (2) Department of Physics

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The Pennsylvania State University University Park PA)

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classification ✦ hep-ph nucl-th

keywords nuclearbjorkeneffectsestimatecombinationdatadegreesdepolarization

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The Bjorken sum rules for the $A=3$ and $A=1$ are used as a guide to estimate nuclear effects in extracting $g_{1n}(x,Q^{2})$ from the $\vec{e}\,\vec{^3\rm{He}}$ data. We estimate that the combination of the spin depolarization, the nonnucleonic degrees of freedom in the $A=3$ system and nuclear shadowing is likely to reduce $g_{1^3\rm{He}}(x\le 0.05)$ by $\sim 15 \%$ while a significant enhancement of the structure functions $g_{1^3\rm{He}}, g_{1^3\rm{H}}$ at $x \sim 0.1$ is predicted.

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