高<em>Q</em><sup>2</sup>电子原子核单举准弹性散射截面的计算方法

戴宏凯; 陈旭荣; 符彦飙

doi:10.11804/NuclPhysRev.34.04.718

留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

高Q²电子原子核单举准弹性散射截面的计算方法

戴宏凯, 陈旭荣, 符彦飙

文章导航 > 原子核物理评论 > 2017 > 34(4): 718-723

戴宏凯, 陈旭荣, 符彦飙. 高Q2电子原子核单举准弹性散射截面的计算方法[J]. 原子核物理评论, 2017, 34(4): 718-723. doi: 10.11804/NuclPhysRev.34.04.718

引用本文:

戴宏凯, 陈旭荣, 符彦飙. 高Q²电子原子核单举准弹性散射截面的计算方法[J]. 原子核物理评论, 2017, 34(4): 718-723. doi: 10.11804/NuclPhysRev.34.04.718

DAI Hongkai, CHEN Xurong, FU Yanbiao. A Calculation Method of Inclusive Electron Nucleus Quasi-elastic Scattering Cross Section at High Q2[J]. Nuclear Physics Review, 2017, 34(4): 718-723. doi: 10.11804/NuclPhysRev.34.04.718

Citation:

DAI Hongkai, CHEN Xurong, FU Yanbiao. A Calculation Method of Inclusive Electron Nucleus Quasi-elastic Scattering Cross Section at High Q²[J]. Nuclear Physics Review, 2017, 34(4): 718-723. doi: 10.11804/NuclPhysRev.34.04.718

高Q²电子原子核单举准弹性散射截面的计算方法

doi: 10.11804/NuclPhysRev.34.04.718

1.
西北师范大学电子与物理工程学院, 兰州 730000;
2.
中国科学院近代物理研究所, 兰州 730000

详细信息

作者简介:
戴宏凯(1991-),男,福建宁德人,硕士研究生,从事核子结构与高能核物理研究;E-mail:daihk@impcas.ac.cn

中图分类号: O571.42

A Calculation Method of Inclusive Electron Nucleus Quasi-elastic Scattering Cross Section at High Q²

1.
College of Physics and Electronic Engineering, Northwest Normal University, Lanzhou 730070, China;
2.
Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China

摘要: 电子与原子核碰撞实验是通过中高能探针探测原子核结构的方法。本文提供了一个高Q²单举准弹性电子原子核散射截面的计算方法，此方法是基于核子-核子短程关联的经验公式与弱束缚近似下的氘核散射截面模型。在弱束缚近似下，氘核可以看成是由近似自由质子与中子组成，质子与中子的短程关联可以忽略，氘核结构函数可以写成质子与中子结构函数线性组合，从而可以得到氘核的散射截面。根据氘核散射截面以及短程关联的经验公式，可以得到考虑短程关联的原子核A > 2的散射截面。我们将计算得到的散射截面与已有的实验和及Bosted拟合方法的结果比较，发现本文的方法在大x和Q² > 2 GeV²区域得到的结果与实验结果符合得较好并且对于一些重原子核，尤其是⁴He核，明显优于Bosted方法的结果。

The electron nucleus collision experiments are approaches measuring the structure of nuclei by using intermediate and high energy probe. This paper shows a calculation method of inclusive electron nucleus quasielastic scattering cross section at high Q² which based on a empirical formula of Nucleon-Nucleon Short Range Correlation (NN-SRC) and a model of electron deuteron quasi-elastic cross section in Weak-Binding Approximation (WBA). In WBA, the deuteron can be regarded as the combination of quasi-free proton and neutron and the short range correlation between them can be ignored. Therefore the structure function of deuteron can be written as the linear combination of that of proton and neutron, then one can get the cross section of deuteron. According to the cross section of deuteron and the empirical formula, one can obtain the cross section of nuclei A > 2 which considers NN-SRC effect. We compare our calculation results with existing experiments and the results calculated by Bosted' fit method, then find that our results match the experiments at high x and Q² > 2 GeV² and better significantly than the Bosted's results for some heavier nucleus, especially ⁴He.
- 电子原子核准弹性散射 /
- 核子-核子短程关联 /
- 弱束缚近似
Abstract: The electron nucleus collision experiments are approaches measuring the structure of nuclei by using intermediate and high energy probe. This paper shows a calculation method of inclusive electron nucleus quasielastic scattering cross section at high Q² which based on a empirical formula of Nucleon-Nucleon Short Range Correlation (NN-SRC) and a model of electron deuteron quasi-elastic cross section in Weak-Binding Approximation (WBA). In WBA, the deuteron can be regarded as the combination of quasi-free proton and neutron and the short range correlation between them can be ignored. Therefore the structure function of deuteron can be written as the linear combination of that of proton and neutron, then one can get the cross section of deuteron. According to the cross section of deuteron and the empirical formula, one can obtain the cross section of nuclei A > 2 which considers NN-SRC effect. We compare our calculation results with existing experiments and the results calculated by Bosted' fit method, then find that our results match the experiments at high x and Q² > 2 GeV² and better significantly than the Bosted's results for some heavier nucleus, especially ⁴He.
- electron nucleus quasi-elastic scattering /
- Nucleon-Nucleon short range correlation /
- Weak-Binding Approximation

[1]	TANG A, WATSON J W, ACLANDER JAIME L S, et al. Phys Rev Lett, 2003, 90:042301.
[2]	SHNEOR R, MONAGHAN P, SUBEDI R, et al. Phys Rev Lett, 2007, 99:072501.
[3]	FRANKFURT L L, STRIKMAN M I, DAY D B, et al. Phys Rev C, 1993, 48:2451.
[4]	EGIYAN K S, DASHYAN N B, SARGSIAN M M, et al. Phys Rev Lett, 2006, 96:082501.
[5]	FOMIN N, ARRINGTON J, ASATURYAN R, et al. Phys Rev Lett, 2012, 108:092502.
[6]	EGIYAN K S, DASHYAN N, SARGSIAN M, et al. Phys Rev C, 2003, 68:014313.
[7]	SCHUTZ W P, ARNOLD R G, CHERTOK B T, et al. Phys Rev Lett, 1977, 38:259.
[8]	ROCK S, ARNOLD R G, CHERTOK B T, et al. Phys Rev C, 1982, 26:1592.
[9]	ROCK S, ARNOLD R G, BOSTED P E, et al. Phys Rev D, 1991, 46:24.
[10]	DAY D B, MCCARTHY J S, SICK I, et al. Phys Rev Lett, 1979, 43:1143.
[11]	DAY D B, MCCARTHY J S, MEZIANI Z E, et al. Phys Rev C, 1993, 48:1849.
[12]	ARRINGTON J, ARMSTRONG C S, AVERETT T, et al. Phys Rev Lett, 1999, 82:2056
[13]	ARRINGTON J. Inclusive Electron Scattering From Nuclei at x > 1 and High Q²[D]. Pasadena:California Institute of Technology, 2006.
[14]	FOMIN N, ARRINGTON J, DAY D B, et al. Phys Rev Lett, 2010, 105:212502.
[15]	BENHAR O, FABROCINI A, FANTONI S, et al. Phys Lett B, 1995, 343:47.
[16]	ETHIER J J, DOSHI N, MALACE S, et al. Phys Rev C, 2014, 89:065203.
[17]	CIOFI DEGLI ATTI CLAUDIO, LIUTI S, Phys Lett B, 1989, 225:215.
[18]	CIOFI DEGLI ATTI CLAUDIO, DAY D B, LIUTI S. Phys Rev C, 1992, 46:1045.
[19]	BOSTED P E, CHRISTY M E. Phys Rev C, 2008, 77:065206.
[20]	BOSTED P E, MAMYAN V. arXiv:nucl-ex/1203.2262.
[21]	BOSTED P E. Peter Bosted's Fits.[2017-04-26]. https://userweb.jlab.org/bosted/fits.html.
[22]	KULAGIN S A, PETTI R. Nucl Phys A, 2006, 765:126.
[23]	KAHN Y, MELNITCHOUK W, KULAGIN S A. Phys Rev C, 2009, 79:035205.
[24]	BENHAR O, DAY D B, SICK I. Rev Mod Phys, 2008, 80:189; http://faculty.virginia.edu/qes-archive.
[25]	HONGKAI DAI, RONG WANG, HUANG YIN, et al. Phys Lett B, 2017, 769:446.
[26]	HEYDE K. Basic Ideas and Concepts in Nuclear Physics[M]. Bristol:IOP, 1999, 213.
[27]	KELLY J J. Phys Rev C, 2004, 70:068202.
[28]	ARRINGTON J, MELNITCHOUK W, TJON J A. Phys Rev C, 2007, 76:035205.
[29]	BOSTED P E. Phys Rev C, 1995, 51:409.
[30]	MACHLEIDT R. Phys Rev C, 2001, 63:024001.
[31]	YE Zhihong. Short Range Correlations in Nuclei at Large xbj through Inclusive Quasi-Elastic Electron Scattering[D]. Charlottesville:University of Virginia, 2013.
[32]	SOLVIGNON P, ARRINGTON J, DAY D B, et al. Precision Measurement of the Isospin Dependence in the 2N and 3N Short Range Correlation Region.[2017-01-05]. http://hallaweb.jlab.org/collab/PAC/PAC38/Tritiumisospin.pdf.

点击查看大图

计量

文章访问数: 1129
HTML全文浏览量: 150
PDF下载量: 101
被引次数: 0

高Q²电子原子核单举准弹性散射截面的计算方法

doi: 10.11804/NuclPhysRev.34.04.718

1. 西北师范大学电子与物理工程学院, 兰州 730000;

2. 中国科学院近代物理研究所, 兰州 730000

作者简介:
戴宏凯(1991-),男,福建宁德人,硕士研究生,从事核子结构与高能核物理研究;E-mail:daihk@impcas.ac.cn

收稿日期: 2017-02-04
修回日期: 2017-05-04
刊出日期: 2017-12-20

中图分类号: O571.42

关键词:

电子原子核准弹性散射 /

核子-核子短程关联 /

弱束缚近似

摘要: 电子与原子核碰撞实验是通过中高能探针探测原子核结构的方法。本文提供了一个高Q²单举准弹性电子原子核散射截面的计算方法，此方法是基于核子-核子短程关联的经验公式与弱束缚近似下的氘核散射截面模型。在弱束缚近似下，氘核可以看成是由近似自由质子与中子组成，质子与中子的短程关联可以忽略，氘核结构函数可以写成质子与中子结构函数线性组合，从而可以得到氘核的散射截面。根据氘核散射截面以及短程关联的经验公式，可以得到考虑短程关联的原子核A > 2的散射截面。我们将计算得到的散射截面与已有的实验和及Bosted拟合方法的结果比较，发现本文的方法在大x和Q² > 2 GeV²区域得到的结果与实验结果符合得较好并且对于一些重原子核，尤其是⁴He核，明显优于Bosted方法的结果。

The electron nucleus collision experiments are approaches measuring the structure of nuclei by using intermediate and high energy probe. This paper shows a calculation method of inclusive electron nucleus quasielastic scattering cross section at high Q² which based on a empirical formula of Nucleon-Nucleon Short Range Correlation (NN-SRC) and a model of electron deuteron quasi-elastic cross section in Weak-Binding Approximation (WBA). In WBA, the deuteron can be regarded as the combination of quasi-free proton and neutron and the short range correlation between them can be ignored. Therefore the structure function of deuteron can be written as the linear combination of that of proton and neutron, then one can get the cross section of deuteron. According to the cross section of deuteron and the empirical formula, one can obtain the cross section of nuclei A > 2 which considers NN-SRC effect. We compare our calculation results with existing experiments and the results calculated by Bosted' fit method, then find that our results match the experiments at high x and Q² > 2 GeV² and better significantly than the Bosted's results for some heavier nucleus, especially ⁴He.

English Abstract

A Calculation Method of Inclusive Electron Nucleus Quasi-elastic Scattering Cross Section at High Q²

1. College of Physics and Electronic Engineering, Northwest Normal University, Lanzhou 730070, China;

2. Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China

Received Date: 2017-02-04
Rev Recd Date: 2017-05-04
Publish Date: 2017-12-20

Keywords:

electron nucleus quasi-elastic scattering /
Nucleon-Nucleon short range correlation /
Weak-Binding Approximation

Abstract: The electron nucleus collision experiments are approaches measuring the structure of nuclei by using intermediate and high energy probe. This paper shows a calculation method of inclusive electron nucleus quasielastic scattering cross section at high Q² which based on a empirical formula of Nucleon-Nucleon Short Range Correlation (NN-SRC) and a model of electron deuteron quasi-elastic cross section in Weak-Binding Approximation (WBA). In WBA, the deuteron can be regarded as the combination of quasi-free proton and neutron and the short range correlation between them can be ignored. Therefore the structure function of deuteron can be written as the linear combination of that of proton and neutron, then one can get the cross section of deuteron. According to the cross section of deuteron and the empirical formula, one can obtain the cross section of nuclei A > 2 which considers NN-SRC effect. We compare our calculation results with existing experiments and the results calculated by Bosted' fit method, then find that our results match the experiments at high x and Q² > 2 GeV² and better significantly than the Bosted's results for some heavier nucleus, especially ⁴He.

戴宏凯, 陈旭荣, 符彦飙. 高Q2电子原子核单举准弹性散射截面的计算方法[J]. 原子核物理评论, 2017, 34(4): 718-723. doi: 10.11804/NuclPhysRev.34.04.718

引用本文:

戴宏凯, 陈旭荣, 符彦飙. 高Q²电子原子核单举准弹性散射截面的计算方法[J]. 原子核物理评论, 2017, 34(4): 718-723. doi: 10.11804/NuclPhysRev.34.04.718

Citation:

全文HTML

参考文献 (32)

下载: 全尺寸图片幻灯片

返回文章

用微信扫码二维码

分享至好友和朋友圈

留言板

高Q2电子原子核单举准弹性散射截面的计算方法

doi: 10.11804/NuclPhysRev.34.04.718

作者简介: 戴宏凯(1991-),男,福建宁德人,硕士研究生,从事核子结构与高能核物理研究;E-mail:daihk@impcas.ac.cn

A Calculation Method of Inclusive Electron Nucleus Quasi-elastic Scattering Cross Section at High Q2

计量

出版历程

高Q2电子原子核单举准弹性散射截面的计算方法

doi: 10.11804/NuclPhysRev.34.04.718

1. 西北师范大学电子与物理工程学院, 兰州 730000; 2. 中国科学院近代物理研究所, 兰州 730000

作者简介: 戴宏凯(1991-),男,福建宁德人,硕士研究生,从事核子结构与高能核物理研究;E-mail:daihk@impcas.ac.cn

English Abstract

A Calculation Method of Inclusive Electron Nucleus Quasi-elastic Scattering Cross Section at High Q2

1. College of Physics and Electronic Engineering, Northwest Normal University, Lanzhou 730070, China; 2. Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China

全文HTML

目录

高Q²电子原子核单举准弹性散射截面的计算方法

作者简介:
戴宏凯(1991-),男,福建宁德人,硕士研究生,从事核子结构与高能核物理研究;E-mail:daihk@impcas.ac.cn

A Calculation Method of Inclusive Electron Nucleus Quasi-elastic Scattering Cross Section at High Q²

高Q²电子原子核单举准弹性散射截面的计算方法

1. 西北师范大学电子与物理工程学院, 兰州 730000;

2. 中国科学院近代物理研究所, 兰州 730000

作者简介:
戴宏凯(1991-),男,福建宁德人,硕士研究生,从事核子结构与高能核物理研究;E-mail:daihk@impcas.ac.cn

A Calculation Method of Inclusive Electron Nucleus Quasi-elastic Scattering Cross Section at High Q²

1. College of Physics and Electronic Engineering, Northwest Normal University, Lanzhou 730070, China;

2. Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China