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Paper detail

Single Spin Asymmetries in Charged Pion Production from Semi-Inclusive Deep Inelastic Scattering on a Transversely Polarized $^3$He Target

We report the first measurement of target single spin asymmetries in the semi-inclusive $^3{He}(e,e'π^\pm)X$ reaction on a transversely polarized target. The experiment, conducted at Jefferson Lab using a 5.9 GeV electron beam, covers a range of 0.14 $< x <$ 0.34 with 1.3 $<Q^2<$ 2.7 GeV$^2$. The Collins and Sivers moments were extracted from the azimuthal angular dependence of the measured asymmetries. The extracted $π^\pm$ Collins moments for $^3$He are consistent with zero, except for the $π^+$ moment at $x=0.34$, which deviates from zero by 2.3$σ$. While the $π^-$ Sivers moments are consistent with zero, the $π^+$ Sivers moments favor negative values. The neutron results were extracted using the nucleon effective polarization and the measured cross section ratio of proton to $^3$He, and are largely consistent with the predictions of phenomenological fits and quark model calculations.

preprint2011arXivOpen access
X. QianK. AlladaC. DuttaJ. HuangJ. KatichY. WangY. ZhangK. AniolJ. R. M. AnnandT. AverettF. BenmokhtarW. BertozziP. C. BradshawP. BostedA. CamsonneM. CananG. D. CatesC. ChenJ. -P. ChenW. ChenK. ChirapatpimolE. ChudakovE. CisbaniJ. C. CornejoF. CusannoM. M. DaltonW. DeconinckC. W. de JagerR. De LeoX. DengA. DeurH. DingP. A. M. DolphD. DuttaL. El FassiS. FrullaniH. GaoF. GaribaldiD. GaskellS. GiladR. GilmanO. GlamazdinS. GolgeL. GuoD. HamiltonO. HansenD. W. HiginbothamT. HolmstromM. HuangH. F. IbrahimM. IodiceX. JiangG. JinM. K. JonesA. KelleherW. KimA. KolarkarW. KorschJ. J. LeroseX. LiY. LiR. LindgrenN. LiyanageE. LongH. -J. LuD. J. MargaziotisP. MarkowitzS. MarroneD. McNultyZ. -E. MezianiR. MichaelsB. MoffitC. Munoz CamachoS. NandaA. NarayanV. NelyubinB. NorumY. OhM. OsipenkoD. ParnoJ. C. PengS. K. PhillipsM. PosikA. J. R. PuckettY. QiangA. RakhmanR. D. RansomeS. RiordanA. SahaB. SawatzkyE. SchulteA. ShahinyanM. H. ShabestariS. ŠircaS. StepanyanR. SubediV. SulkoskyL. -G. TangA. TobiasG. M. UrciuoliI. VilardiK. WangB. WojtsekhowskiX. YanH. YaoY. YeZ. YeL. YuanX. ZhanY. -W. ZhangB. ZhaoX. ZhengL. ZhuX. ZhuX. Zong
hep-exhep-phnucl-exnucl-th
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X. QianK. AlladaC. DuttaJ. HuangJ. KatichY. WangY. ZhangK. AniolJ. R. M. AnnandT. AverettF. BenmokhtarW. BertozziP. C. BradshawP. BostedA. CamsonneM. CananG. D. CatesC. ChenJ. -P. ChenW. ChenK. ChirapatpimolE. ChudakovE. CisbaniJ. C. CornejoF. CusannoM. M. DaltonW. DeconinckC. W. de JagerR. De LeoX. DengA. DeurH. DingP. A. M. DolphD. DuttaL. El FassiS. FrullaniH. GaoF. GaribaldiD. GaskellS. GiladR. GilmanO. GlamazdinS. GolgeL. GuoD. HamiltonO. HansenD. W. HiginbothamT. HolmstromM. HuangH. F. IbrahimM. IodiceX. JiangG. JinM. K. JonesA. KelleherW. KimA. KolarkarW. KorschJ. J. LeroseX. LiY. LiR. LindgrenN. LiyanageE. LongH. -J. LuD. J. MargaziotisP. MarkowitzS. MarroneD. McNultyZ. -E. MezianiR. MichaelsB. MoffitC. Munoz CamachoS. NandaA. NarayanV. NelyubinB. NorumY. OhM. OsipenkoD. ParnoJ. C. PengS. K. PhillipsM. PosikA. J. R. PuckettY. QiangA. RakhmanR. D. RansomeS. RiordanA. SahaB. SawatzkyE. SchulteA. ShahinyanM. H. ShabestariS. ŠircaS. StepanyanR. SubediV. SulkoskyL. -G. TangA. TobiasG. M. UrciuoliI. VilardiK. WangB. WojtsekhowskiX. YanH. YaoY. YeZ. YeL. YuanX. ZhanY. -W. ZhangB. ZhaoX. ZhengL. ZhuX. ZhuX. Zong

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