测量 0.01 美元的核子自旋结构函数

A. Deur, S. E. Kuhn, M. Ripani, X. Zheng, A. G. Acar, P. Achenbach, K. P. Adhikari, J. S. Alvarado, M. J. Amaryan, W. R. Armstrong, H. Atac, H. Avakian, L. Baashen, N. A. Baltzell, L. Barion, M. Bashkanov, M. Battaglieri, B. Benkel, F. Benmokhtar, A. Bianconi, A. S. Biselli, W. A. Booth, F. B ossu, P. Bosted, S. Boiarinov, K. Th. Brinkmann, W. J. Briscoe, S. Bueltmann, V. D. Burkert, D. S. Carman, P. Chatagnon, J. P. Chen, G. Ciullo, P. L. Cole, M. Contalbrigo, V. Crede, A. D'Angelo, N. Dashyan, R. De Vita, M. Defurne, S. Diehl, C. Djalali, V. A. Drozdov, R. Dupre, H. Egiyan, A. El Alaoui, L. El Fassi, L. Elouadrhiri, P. Eugenio, J. C. Faggert, S. Fegan, R. Fersch, A. Filippi, K. Gates, G. Gavalian, G. P. Gilfoyle, R. W. Gothe, L. Guo, H. Hakobyan, M. Hattawy, F. Hauenstein, D. Heddle, A. Hobart, M. Holtrop, D. G. Ireland, E. L. Isupov, H. Jiang, H. S. Jo, S. Joosten, H. Kang, C. Keith, M. Khandaker, W. Kim, F. J. Klein, V. Klimenko, P. Konczykowski, K. Kovacs, A. Kripko, V. Kubarovsky, L. Lanza, S. Lee, P. Lenisa, X. Li, E. Long, I. J. D. MacGregor, D. Marchand, V. Mascagna, D. Matamoros, B. McKinnon, D. Meekins, S. Migliorati, T. Mineeva, M. Mirazita, V. Mokeev, C. Munoz-Camacho, P. Nadel-Turonski, T. Nagorna, K. Neupane, S. Niccolai, M. Osipenko, A. I. Ostrovidov, P. Pandey, M. Paolone, L. L. Pappalardo, R. Paremuzyan, E. Pasyuk, S. J. Paul, W. Phelps, S. K. Phillips, J. Pierce, N. Pilleux, M. Pokhrel, J. W. Price, Y. Prok, A. Radic, T. Reed, J. Richards, G. Rosner, P. Rossi, A. A. Rusova, C. Salgado, A. Schmidt, R. A. Schumacher, Y. G. Sharabian, E. V. Shirokov, U. Shrestha, S. Sirca, N. Sparveris, M. Spreafico, S. Stepanyan, I. I. Strakovsky, S. Strauch, V. Sulkosky, J. A. Tan, M. Tenorio, N. Trotta, R. Tyson, M. Ungaro, D. W. Upton, S. Vallarino, L. Venturelli, H. Voskanyan, E. Voutier, D. P. Watts, X. Wei, M. H. Wood, N. Zachariou, J. Zhang, M. Zurek
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引用次数: 0

摘要

2006 年在杰斐逊实验室进行的 EG4 实验中测量了质子和氘核的自旋结构函数。利用 CEBAF 大接受谱仪(CLAS)收集了纵向偏振NH$_3$ 和 ND$_3$ 目标的纵向偏振电子散射数据,Q^2$ 值分别小到 0.012 和 0.02 GeV$^2$。这是EG4实验的存档论文,总结了之前报告的质子和氘核的极化结构函数$g_1$、$A_1F_1$及其矩$\overline \Gamma_1$、$\overline \gamma_0$和$\overline I_{TT}$的结果。此外,我们还报告了通过合并质子和氘核数据并校正费米涂抹而提取的中子$g_1$的新结果,以及由质子和氘核的中子矩直接形成的中子矩$\overline \Gamma_1$、$\overline\gamma_0$和$\overline I_{TT}$的新结果。我们的数据与质子、氘核和中子的格拉西莫夫-德雷尔-赫恩总和法则十分吻合。此外,我们还为 $g_1$ 和比约肯积分 $\overline\Gamma_1^{p-n}$ 形成了等矢量组合,并与现有的理论预测进行了比较。我们的所有结果首次对手性有效场理论($\chi$EFT)在与先驱质量相称的$Q^2$范围内的自旋可观测预言进行了广泛的检验。它们激励我们进一步改进其他方法(如格规方法)的$\chi$EFT计算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Measurement of the nucleon spin structure functions for $0.01
The spin structure functions of the proton and the deuteron were measured during the EG4 experiment at Jefferson Lab in 2006. Data were collected for longitudinally polarized electron scattering off longitudinally polarized NH$_3$ and ND$_3$ targets, for $Q^2$ values as small as 0.012 and 0.02 GeV$^2$, respectively, using the CEBAF Large Acceptance Spectrometer (CLAS). This is the archival paper of the EG4 experiment that summaries the previously reported results of the polarized structure functions $g_1$, $A_1F_1$, and their moments $\overline \Gamma_1$, $\overline \gamma_0$, and $\overline I_{TT}$, for both the proton and the deuteron. In addition, we report on new results on the neutron $g_1$ extracted by combining proton and deuteron data and correcting for Fermi smearing, and on the neutron moments $\overline \Gamma_1$, $\overline \gamma_0$, and $\overline I_{TT}$ formed directly from those of the proton and the deuteron. Our data are in good agreement with the Gerasimov-Drell-Hearn sum rule for the proton, deuteron, and neutron. Furthermore, the isovector combination was formed for $g_1$ and the Bjorken integral $\overline \Gamma_1^{p-n}$, and compared to available theoretical predictions. All of our results provide for the first time extensive tests of spin observable predictions from chiral effective field theory ($\chi$EFT) in a $Q^2$ range commensurate with the pion mass. They motivate further improvement in $\chi$EFT calculations from other approaches such as the lattice gauge method.
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