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Main Authors: Poudel, Jiwan, Bacchetta, Alessandro, Chen, Jian-Ping, Santiesteban, Nathaly
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.04506
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_version_ 1866910988973899776
author Poudel, Jiwan
Bacchetta, Alessandro
Chen, Jian-Ping
Santiesteban, Nathaly
author_facet Poudel, Jiwan
Bacchetta, Alessandro
Chen, Jian-Ping
Santiesteban, Nathaly
contents The deuteron is the lightest spin-1 nucleus, consisting of a weakly bound system of two spin-1/2 nucleons. One intriguing characteristic of the deuteron is the tensor polarized structure, which cannot be naively constructed combining the proton and neutron structure. The tensor structure of the deuteron provides unique insights into the quarks and gluons distributions and their dynamics within the nucleus. It can be studied experimentally through inclusive and semi-inclusive Deep Inelastic Scattering (DIS) of electrons on tensor polarized deuterons. One-dimensional (longitudinal-momentum-dependent) tensor structure functions are extracted from the inclusive DIS, whereas three-dimensional with additional transverse-momentum-dependent tensor structure functions are extracted from the semi-inclusive DIS. Experimentally, achieving high tensor polarization for such measurements has been a challenge. Significant progress has recently been made in enhancing the tensor polarization for polarized deuteron target, opening up a new window for experimental studies of the deuteron tensor structure. In this article, we discuss the tensor structure functions of the deuteron and the experimental schemes to extract these functions at Jefferson Lab, highlighting the potential measurements of the transverse-momentum-dependent tensor structure functions.
format Preprint
id arxiv_https___arxiv_org_abs_2506_04506
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Experimental Study of Tensor Structure Function of Deuteron
Poudel, Jiwan
Bacchetta, Alessandro
Chen, Jian-Ping
Santiesteban, Nathaly
Nuclear Experiment
High Energy Physics - Experiment
The deuteron is the lightest spin-1 nucleus, consisting of a weakly bound system of two spin-1/2 nucleons. One intriguing characteristic of the deuteron is the tensor polarized structure, which cannot be naively constructed combining the proton and neutron structure. The tensor structure of the deuteron provides unique insights into the quarks and gluons distributions and their dynamics within the nucleus. It can be studied experimentally through inclusive and semi-inclusive Deep Inelastic Scattering (DIS) of electrons on tensor polarized deuterons. One-dimensional (longitudinal-momentum-dependent) tensor structure functions are extracted from the inclusive DIS, whereas three-dimensional with additional transverse-momentum-dependent tensor structure functions are extracted from the semi-inclusive DIS. Experimentally, achieving high tensor polarization for such measurements has been a challenge. Significant progress has recently been made in enhancing the tensor polarization for polarized deuteron target, opening up a new window for experimental studies of the deuteron tensor structure. In this article, we discuss the tensor structure functions of the deuteron and the experimental schemes to extract these functions at Jefferson Lab, highlighting the potential measurements of the transverse-momentum-dependent tensor structure functions.
title Experimental Study of Tensor Structure Function of Deuteron
topic Nuclear Experiment
High Energy Physics - Experiment
url https://arxiv.org/abs/2506.04506