独家后角欧米茄介子电生产

Wenliang Li
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引用次数: 2

摘要

这项工作是一项开创性的研究,通过使用缺失质量重建技术通过独家1H(e,e'p) ω反应对后角ω横截面进行研究。提取的横截面被分成横向(T)、纵向(L)和LT、TT干涉项。分析的数据是实验E01-004 (Fpi-2)的一部分,该实验使用2.6-5.2GeV电子束和杰斐逊实验室c厅的HMS+SOS光谱仪,主要目的是检测前向角的符合介子,其中偶然检测到后向角的ω事件。当W=2.21GeV时,实验中心Q2值分别为1.60和2.45GeV2。有显著的覆盖在phi和epsilon,这允许分离sigma_T,L,LT,TT。数据集具有唯一的u覆盖-u~0,对应于-t>4GeV2。分离的sigma_T结果表明一个平坦的~1/Q^(1.33+/-1.21)依赖性,而sigma_L似乎具有更强的1/Q^(9.43+/-6.28)依赖性。sigma_L/sigma_T比值表明,在~90%的置信水平下,Q2=2.45 GeV2时sigma_T占主导地位。在将结果转换为已发布的CLAS数据的-t空间后,我们的数据显示了在两个Q2设置下的后角omega电生产峰值的证据。在此之前,这一现象仅在介子光产生数据中观察到前后角峰值。通过将我们的sigma_T数据与过渡分布振幅(TDA)模型的预测结果进行比较,以及sigma_T占主导地位的迹象,在Q2值远低于其首选范围Q2 bbb10gev2的情况下,证明了TDA分解的适用性。这些研究开辟了利用后角实验观测资料研究核子波函数跃迁的新途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exclusive Backward-Angle Omega Meson Electroproduction
This work is a pioneering study of backward-angle omega cross sections through the exclusive 1H(e,e'p)omega reaction using the missing mass reconstruction technique. The extracted cross sections are separated into the transverse (T), longitudinal (L), and LT, TT interference terms. The analyzed data were part of experiment E01-004 (Fpi-2), which used 2.6-5.2GeV electron beams and HMS+SOS spectrometers in Jefferson Lab Hall C. The primary objective was to detect coincidence pion in the forward-angle, where the backward-angle omega events were fortuitously detected. The experiment has central Q2 values of 1.60 and 2.45GeV2, at W=2.21GeV. There was significant coverage in phi and epsilon, which allowed separation of sigma_T,L,LT,TT. The data set has a unique u coverage of -u~0, which corresponds to -t>4GeV2. The separated sigma_T result suggest a flat ~1/Q^(1.33+/-1.21) dependence, whereas sigma_L seems to hold a stronger 1/Q^(9.43+/-6.28) dependence. The sigma_L/sigma_T ratio indicate sigma_T dominance at Q2=2.45 GeV2 at the ~90% confidence level. After translating the results into the -t space of the published CLAS data, our data show evidence of a backward-angle omega electroproduction peak at both Q2 settings. Previously, this phenomenon showing both forward and backward-angle peaks was only observed in the meson photoproduction data. Through comparison of our sigma_T data with the prediction of the Transition Distribution Amplitude (TDA) model, and signs of sigma_T dominance, promising indications of the applicability of the TDA factorization are demonstrated at a much lower Q2 value than its preferred range of Q2>10GeV2. These studies have opened a new means to study the transition of the nucleon wavefunction through backward-angle experimental observables.
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