Applications of a nonlinear evolution equation II: The EMC effect

Xurong Chen; Jianhong Ruan; Rong Wang; Pengming Zhang; Wei Zhu

doi:10.1142/S021830131450058X

Applications of a nonlinear evolution equation II: The EMC effect

Xurong Chen
, Jianhong Ruan
, Rong Wang
, Pengming Zhang
, Wei Zhu^*

^*此作品的通讯作者

物理与电子科学学院

CAS - Institute of Modern Physics
University of Chinese Academy of Sciences
East China Normal University

科研成果: 期刊稿件 › 文章 › 同行评审

10 引用（Scopus）

摘要

The EMC effect is studied by using the DGLAP equation with the ZRS corrections and minimum number of free parameters, where the nuclear shadowing effect is a dynamical evolution result of the equation, the nucleon swelling and Fermi motion in the nuclear environment deform the input parton distributions. Parton distributions of both proton and nucleus are predicted in a unified framework. We show that the parton recombination as a higher twist correction plays an essential role in the evolution of parton distributions either of proton or nucleus. We find that the nuclear anti-shadowing contributes a part of enhancement of the ratio of the structure functions around x ∼ 0.1, while the other part origins from the deformation of the nuclear valence quark distributions. In particular, the nuclear gluon distributions are dynamically predicted, which are important information for the recherche of the high energy nuclear physics.

源语言	英语
文章编号	1450058
期刊	International Journal of Modern Physics E
卷	23
期	10
DOI	https://doi.org/10.1142/S021830131450058X
出版状态	已出版 - 30 10月 2014

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title = "Applications of a nonlinear evolution equation II: The EMC effect",

abstract = "The EMC effect is studied by using the DGLAP equation with the ZRS corrections and minimum number of free parameters, where the nuclear shadowing effect is a dynamical evolution result of the equation, the nucleon swelling and Fermi motion in the nuclear environment deform the input parton distributions. Parton distributions of both proton and nucleus are predicted in a unified framework. We show that the parton recombination as a higher twist correction plays an essential role in the evolution of parton distributions either of proton or nucleus. We find that the nuclear anti-shadowing contributes a part of enhancement of the ratio of the structure functions around x ∼ 0.1, while the other part origins from the deformation of the nuclear valence quark distributions. In particular, the nuclear gluon distributions are dynamically predicted, which are important information for the recherche of the high energy nuclear physics.",

keywords = "EMC effect, Nonlinear corrections, Nuclear shadowing and anti-shadowing, QCD evolution equation",

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TY - JOUR

T1 - Applications of a nonlinear evolution equation II

T2 - The EMC effect

AU - Chen, Xurong

AU - Ruan, Jianhong

AU - Wang, Rong

AU - Zhang, Pengming

AU - Zhu, Wei

N1 - Publisher Copyright: © World Scientific Publishing Company.

PY - 2014/10/30

Y1 - 2014/10/30

N2 - The EMC effect is studied by using the DGLAP equation with the ZRS corrections and minimum number of free parameters, where the nuclear shadowing effect is a dynamical evolution result of the equation, the nucleon swelling and Fermi motion in the nuclear environment deform the input parton distributions. Parton distributions of both proton and nucleus are predicted in a unified framework. We show that the parton recombination as a higher twist correction plays an essential role in the evolution of parton distributions either of proton or nucleus. We find that the nuclear anti-shadowing contributes a part of enhancement of the ratio of the structure functions around x ∼ 0.1, while the other part origins from the deformation of the nuclear valence quark distributions. In particular, the nuclear gluon distributions are dynamically predicted, which are important information for the recherche of the high energy nuclear physics.

AB - The EMC effect is studied by using the DGLAP equation with the ZRS corrections and minimum number of free parameters, where the nuclear shadowing effect is a dynamical evolution result of the equation, the nucleon swelling and Fermi motion in the nuclear environment deform the input parton distributions. Parton distributions of both proton and nucleus are predicted in a unified framework. We show that the parton recombination as a higher twist correction plays an essential role in the evolution of parton distributions either of proton or nucleus. We find that the nuclear anti-shadowing contributes a part of enhancement of the ratio of the structure functions around x ∼ 0.1, while the other part origins from the deformation of the nuclear valence quark distributions. In particular, the nuclear gluon distributions are dynamically predicted, which are important information for the recherche of the high energy nuclear physics.

KW - EMC effect

KW - Nonlinear corrections

KW - Nuclear shadowing and anti-shadowing

KW - QCD evolution equation

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DO - 10.1142/S021830131450058X

M3 - 文章

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SN - 0218-3013

VL - 23

JO - International Journal of Modern Physics E

JF - International Journal of Modern Physics E

IS - 10

M1 - 1450058

ER -

Applications of a nonlinear evolution equation II: The EMC effect

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