Your search keyword '"SATO, Nobuo"' showing total 18 results

1. Azimuthal modulations and extraction of generalized parton distributions

Author

Qiu, Jian-Wei, Sato, Nobuo, and Yu, Zhite

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, High Energy Physics - Lattice, Nuclear Experiment, Nuclear Theory

Abstract

Azimuthal modulations are crucial for the phenomenological extraction and separation of various generalized parton distributions. We provide a new choice of frame and corresponding formalism to describe the azimuthal distributions, based on the separation of physics occurring at different momentum scales. We demonstrate that this new description is not only well-suited for experimental analysis, but also advantageous in separating contributions from different subprocesses to the same physical cross section., Comment: 5 pages, 3 figures, plus a 3-page supplemental material

Published

2024

2. Shedding light on shadow generalized parton distributions

Author

Moffat, Eric, Freese, Adam, Cloët, Ian, Donohoe, Thomas, Gamberg, Leonard, Melnitchouk, Wally, Metz, Andreas, Prokudin, Alexei, and Sato, Nobuo

Subjects

High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory

Abstract

The feasibility of extracting generalized parton distributions (GPDs) from deeply-virtual Compton scattering (DVCS) data has recently been questioned because of the existence of an infinite set of so-called ''shadow GPDs'' (SGPDs). These SGPDs depend on the process and manifest as multiple solutions (at a fixed scale $Q^2$) to the inverse problem that needs to be solved to infer GPDs from DVCS data. SGPDs therefore pose a significant challenge for extracting GPDs from DVCS data. With this motivation we study the extent to which QCD evolution can provide constraints on SGPDs. This is possible because the known classes of SGPDs begin to contribute to observables after evolution, and can then be constrained (at the input scale $Q^2_0$) by data that has a finite $Q^2$ range. The impact that SGPDs could have on determining the total angular momentum, pressure and sheer force distributions, and tomography is also discussed. Our key finding is that scale evolution, coupled with data over a wide range of skewness $\xi$ and $Q^2$, can constrain the class of SGPDs that we studied and potentially make possible the extraction of GPDs from DVCS data over a limited range in the GPD variables., Comment: 15 pages, 5 figures

Published

2023

3. Detailed Study of Quark-Hadron Duality in Spin Structure Functions of the Proton and Neutron

Author

Lagerquist, Victoria, Kuhn, Sebastian E., and Sato, Nobuo

Subjects

Nuclear Experiment, High Energy Physics - Phenomenology, Nuclear Theory

Abstract

In this paper, we present for the first time comprehensive and detailed results on the correspondence between the extrapolated deep inelastic structure function $g_1$ of both the proton and the neutron with the same quantity measured in the nucleon resonance region. We use a QCD parameterization of the world data on DIS spin structure functions, extrapolated into the nucleon resonance region and averaged over various intervals in the scaling variable $x$. We compare the results with the large data set collected in the quark-hadron transition region by the CLAS collaboration, averaged over the same intervals. We present this comparison as a function of the momentum transfer $Q^2$. We find that, depending on the averaging interval and the minimum momentum transfer chosen, a clear transition to quark-hadron duality can be observed in both nucleon species. Furthermore, we show, for the first time, the scaling behavior of $g_1$ measured in the resonance region at sufficiently high momentum transfer. Our results can be used to quantify the deviations from the applicability of pQCD for data taken at moderate energies, and help with extraction of quark distribution functions from such data., Comment: Final version accepted by Phys. Rev. C. Published April 6,2023 (see journal reference below). Copyright 2023 American Physical Society

Published

2022

4. Updated QCD global analysis of single transverse-spin asymmetries I: Extracting $\tilde{H}$, and the role of the Soffer bound and lattice QCD

Author

Gamberg, Leonard, Malda, Michel, Miller, Joshua A., Pitonyak, Daniel, Prokudin, Alexei, and Sato, Nobuo

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, Nuclear Experiment, Nuclear Theory

Abstract

We present an update to the QCD global analysis of single transverse-spin asymmetries presented in Cammarota, et al., PRD 102, 054002 (2020) (JAM3D-20). JAM3D-20 simultaneously included transverse momentum dependent and collinear twist-3 observables, both of which are sensitive to quark-gluon-quark correlations in hadrons. In this study we extract for the first time the twist-3 chiral odd fragmentation function $\tilde{H}$ by incorporating the $\sin\phi_s$ modulation data from SIDIS along with its contribution to the single transverse-spin asymmetry in pion production from proton-proton collisions. We also explore the impact of lattice QCD tensor charge calculations and the Soffer bound on our global analysis. We find that both constraints can be accommodated within our results, with $\tilde{H}$ playing a key role in maintaining agreement with the data from proton-proton collisions., Comment: 27 pages, 19 figures, 1 table; content added on uncertainties of non-perturbative functions, new section on the role of antiquarks, version to appear in PRD

Published

2022

5. Machine Learning in Nuclear Physics

Author

Boehnlein, Amber, Diefenthaler, Markus, Fanelli, Cristiano, Hjorth-Jensen, Morten, Horn, Tanja, Kuchera, Michelle P., Lee, Dean, Nazarewicz, Witold, Orginos, Kostas, Ostroumov, Peter, Pang, Long-Gang, Poon, Alan, Sato, Nobuo, Schram, Malachi, Scheinker, Alexander, Smith, Michael S., Wang, Xin-Nian, and Ziegler, Veronique

Subjects

Nuclear Theory, Computer Science - Machine Learning, High Energy Physics - Experiment, Nuclear Experiment

Abstract

Advances in machine learning methods provide tools that have broad applicability in scientific research. These techniques are being applied across the diversity of nuclear physics research topics, leading to advances that will facilitate scientific discoveries and societal applications. This Review gives a snapshot of nuclear physics research which has been transformed by machine learning techniques., Comment: Comments are welcome

Published

2021

6. Leading jets and energy loss

Author

Neill, Duff, Ringer, Felix, and Sato, Nobuo

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, Nuclear Experiment, Nuclear Theory

Abstract

The formation and evolution of leading jets can be described by jet functions which satisfy non-linear DGLAP-type evolution equations. Different than for inclusive jets, the leading jet functions constitute normalized probability densities for the leading jet to carry a longitudinal momentum fraction relative to the initial fragmenting parton. We present a parton shower algorithm which allows for the calculation of leading-jet cross sections where logarithms of the jet radius and threshold logarithms are resummed to next-to-leading logarithmic (NLL$'$) accuracy. By calculating the mean of the leading jet distribution, we are able to quantify the average out-of-jet radiation, the so-called jet energy loss. When an additional reference scale is measured, we are able to determine the energy loss of leading jets at the cross section level which is identical to parton energy loss at leading-logarithmic accuracy. We identify several suitable cross sections for an extraction of the jet energy loss and we present numerical results for leading subjets at the LHC. In addition, we consider hemisphere and event-wide leading jets in electron-positron annihilation similar to measurements performed at LEP. Besides the average energy loss, we also consider its variance and other statistical quantities such as the KL divergence which quantifies the difference between quark and gluon jet energy loss. We expect that our results will be particularly relevant for quantifying the energy loss of quark and gluon jets that propagate through hot or cold nuclear matter., Comment: 58 pages, 20 figures

Published

2021

7. Revealing the structure of light pseudoscalar mesons at the Electron-Ion Collider

Author

Arrington, John, Gayoso, Carlos Ayerbe, Barry, Patrick C, Berdnikov, Vladimir, Binosi, Daniele, Chang, Lei, Diefenthaler, Markus, Ding, Minghui, Ent, Rolf, Frederico, Tobias, Furletova, Yulia, Hobbs, Tim J, Horn, Tanja, Huber, Garth M, Kay, Stephen JD, Keppel, Cynthia, Lin, Huy-Wen, Mezrag, Cedric, Montgomery, Rachel, Pegg, Ian L, Raya, Khepani, Reimer, Paul, Richards, David G, Roberts, Craig D, Rodriguez-Quintero, Jose, Romanov, Dmitry, Salme, Giovanni, Sato, Nobuo, Segovia, Jorge, Stepanov, Petr, Tadepalli, Arun S, and Trotta, Richard L

Subjects

Nuclear Experiment, High Energy Physics - Phenomenology, Nuclear Theory

Abstract

How the bulk of the Universe's visible mass emerges and how it is manifest in the existence and properties of hadrons are profound questions that probe into the heart of strongly interacting matter. Paradoxically, the lightest pseudoscalar mesons appear to be the key to the further understanding of the emergent mass and structure mechanisms. These mesons, namely the pion and kaon, are the Nambu-Goldstone boson modes of QCD. Unravelling their partonic structure and the interplay between emergent and Higgs-boson mass mechanisms is a common goal of three interdependent approaches -- continuum QCD phenomenology, lattice-regularised QCD, and the global analysis of parton distributions -- linked to experimental measurements of hadron structure. Experimentally, the foreseen electron-ion collider will enable a revolution in our ability to study pion and kaon structure, accessed by scattering from the "meson cloud" of the proton through the Sullivan process. With the goal of enabling a suite of measurements that can address these questions, we examine key reactions to identify the critical detector system requirements needed to map tagged pion and kaon cross sections over a wide range of kinematics. The excellent prospects for extracting pion structure function and form factor data are shown, and similar prospects for kaon structure are discussed in the context of a worldwide programme. Successful completion of the programme outlined herein will deliver deep, far-reaching insights into the emergence of pions and kaons, their properties, and their role as QCD's Goldstone boson modes., Comment: 73 pages, 27 figures

Published

2021

8. First analysis of world polarized DIS data with small-$x$ helicity evolution

Author

Adamiak, Daniel, Kovchegov, Yuri V., Melnitchouk, W., Pitonyak, Daniel, Sato, Nobuo, and Sievert, Matthew D.

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, Nuclear Experiment, Nuclear Theory

Abstract

We present a Monte Carlo based analysis of the combined world data on polarized lepton-nucleon deep-inelastic scattering at small Bjorken $x$ within the polarized quark dipole formalism. We show for the first time that double-spin asymmetries at $x<0.1$ can be successfully described using only small-$x$ evolution derived from first-principles QCD, allowing predictions to be made for the $g_1$ structure function at much smaller $x$. Anticipating future data from the Electron-Ion Collider, we assess the impact of electromagnetic and parity-violating polarization asymmetries on $g_1$ and demonstrate an extraction of the individual flavor helicity PDFs at small $x$., Comment: 7 pages, 5 figures; v2: Discussion extended, typos corrected, data set expanded, figure added. To appear in Phys. Rev. D

Published

2021

9. Calculating the energy loss of leading jets

Author

Neill, Duff, Ringer, Felix, and Sato, Nobuo

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, Nuclear Experiment, Nuclear Theory

Abstract

The energy loss mechanism of jets plays a central role in nuclear and high energy physics. We propose direct measurements of the energy loss of leading jets and perform a calculation at next-to-leading logarithmic (NLL$'$) accuracy in the vacuum. The formation of leading jets can be described by jet functions which constitute probability densities and thus allow for a perturbative calculation of the average the energy loss. We identify the following three criteria for a direct measurement of jet energy loss at the cross section level. $i)$ We measure a well defined object, the leading jet, where the formation process can be expressed in terms of a probability density. $ii)$ In addition, we need a measurement of a hard reference scale with respect to which jet energy loss is defined. $iii)$ At leading logarithmic accuracy, we require that the jet energy loss can be identified with parton energy loss. We discuss suitable observables and present numerical results including threshold corrections by making use of a parton shower Monte Carlo approach., Comment: 7 pages, 3 figures, 10th International Conference on Hard and Electromagnetic Probes of High-Energy Nuclear Collisions

Published

2020

10. Asymmetric jet clustering in deep-inelastic scattering

Author

Arratia, Miguel, Makris, Yiannis, Neill, Duff, Ringer, Felix, and Sato, Nobuo

Subjects

High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory

Abstract

We propose a new jet algorithm for deep-inelastic scattering (DIS) that accounts for the forward-backward asymmetry in the Breit frame. The Centauro algorithm is longitudinally invariant and can cluster jets with Born kinematics, which enables novel studies of transverse-momentum-dependent observables. Furthermore, we show that spherically-invariant algorithms in the Breit frame give access to low-energy jets from current fragmentation. We propose novel studies in unpolarized, polarized, and nuclear DIS at the future Electron-Ion Collider., Comment: 7 pages and 7 figures

Published

2020

11. Probing Nucleons and Nuclei in High Energy Collisions

Author

Aidala, Christine A., Aschenauer, Elke, Aslan, Fatma, Bacchetta, Alessandro, Balitsky, Ian, Benic, Sanjin, Bhattacharya, Shohini, Boglione, Mariaelena, Burkardt, Matthias, Cammarota, Justin, Chirilli, Giovanni A., Cocuzza, Christopher, Courtoy, Aurore, de Florian, Daniel, Di Nezza, Pasquale, Dumitru, Adrian, Fucini, Sara, Fukushima, Kenji, Furletova, Yulia, Gamberg, Leonard, Garcia-Montero, Oscar, Gelis, François, Guzey, Vadim, Hatta, Yoshitaka, Hautmann, Francesco, Hobbs, Timothy J., Horn, Tanja, Iancu, Edmond, Joosten, Sylvester, Kang, Zhong-Bo, Kishore, Raj, Kovchegov, Yuri V., Kroll, Peter, Kumerički, Krešimir, Kutak, Krzysztof, Lappi, Tuomas, Lin, Huey-Wen, Liu, Xiaohui, Liuti, Simonetta, Lorcé, Cédric, Mäntysaari, Heikki, Marquet, Cyrille, Makris, Yiannis, Mamo, Kiminad A., Mehtar-Tani, Yacine, Metz, Andreas, Meziani, Zein-Eddine, Miller, Gerald A., Miller, Joshua, Mukherjee, Asmita, Nadolsky, Pavel M., Olness, Fredrick I., Pasquini, Barbara, Pire, Bernard, Pisano, Cristian, Pitonyak, Daniel, Polyakov, Maxim V., Prokudin, Alexei, Qiu, Jian-Wei, Radici, Marco, Rajan, Abha, Rajesh, Sangem, Rinaldi, Matteo, Roy, Kaushik, Royon, Christophe, Sato, Nobuo, Schlegel, Marc, Schnell, Gunar, Schweitzer, Peter, Scopetta, Sergio, Seidl, Ralf, Semenov-Tian-Shansky, Kirill, Signori, Andrea, Sokhan, Daria, Stasto, Anna M., Szymanowski, Lech, Tarasov, Andrey, Triantafyllopoulos, Dionysios, Ullrich, Thomas, Venugopalan, Raju, Vitev, Ivan, Vogelsang, Werner, Vossen, Anselm, Wang, Bo-Ting, Wallon, Samuel, Watanabe, Kazuhiro, Weiss, Christian, Xiao, Bo-Wen, Yee, Ho-Ung, and Zhao, Yong

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, Nuclear Experiment, Nuclear Theory

Abstract

This volume is a collection of contributions for the 7-week program "Probing Nucleons and Nuclei in High Energy Collisions" that was held at the Institute for Nuclear Theory in Seattle, WA, USA, from October 1 until November 16, 2018. The program was dedicated to the physics of the Electron Ion Collider (EIC), the world's first polarized electron-nucleon (ep) and electron-nucleus (eA) collider to be constructed in the USA. These proceedings are organized by chapters, corresponding to the weeks of the program: Week I, Generalized parton distributions; Week II, Transverse spin and TMDs; Week III, Longitudinal spin; Week IV, Symposium week; Weeks V & VI, eA collisions; Week VII, pA and AA collisions. We hope these proceedings will be useful to readers as a compilation of EIC-related science at the end of the second decade of the XXI century., Comment: Electron Ion Collider, INT 18-3 Program. Published by World Scientific. Duplicates content of arXiv:1912.10965, arXiv:1912.10724, arXiv:1910.03006, arXiv:1910.07982, arXiv:1912.13397, arXiv:1910.01979, arXiv:2001.07862, arXiv:2001.03700, arXiv:1910.01030, arXiv:1910.01273, arXiv:1912.13020, arXiv:1910.06003, arXiv:2001.03655, arXiv:1909.12591, arXiv:1909.09809, arXiv:1910.04806, arXiv:2001.05978

Published

2020

12. Origin of single transverse-spin asymmetries in high-energy collisions

Author

Cammarota, Justin, Gamberg, Leonard, Kang, Zhong-Bo, Miller, Joshua A., Pitonyak, Daniel, Prokudin, Alexei, Rogers, Ted C., and Sato, Nobuo

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, High Energy Physics - Lattice, Nuclear Experiment, Nuclear Theory

Abstract

In this paper we perform the first simultaneous QCD global analysis of data from semi-inclusive deep inelastic scattering, Drell-Yan, $e^+e^-$ annihilation into hadron pairs, and proton-proton collisions. Consequently, we are able to extract a universal set of non-perturbative functions that describes the observed asymmetries in these reactions. The outcome of our analysis indicates single transverse-spin asymmetries in high-energy collisions have a common origin. Furthermore, we achieve the first phenomenological agreement with lattice QCD on the up and down quark tensor charges., Comment: 8 pages, 6 figures, matches published version

Published

2020

13. QCD factorization and universality of jet cross sections in heavy-ion collisions

Author

Qiu, Jian-Wei, Ringer, Felix, Sato, Nobuo, and Zurita, Pia

Subjects

High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory

Abstract

We review a recently proposed phenomenological framework to establish the notions of QCD factorization and universality of jet cross sections in the heavy-ion environment. First results of a global analysis of the nuclear modification factor of inclusive jets are presented where we extract medium modified jet functions using a Monte Carlo sampling approach. We observe that gluon jets are significantly more suppressed than quark jets. In addition, we study the jet radius dependence of the inclusive jet cross section in heavy-ion collisions and comment on a recent measurement from CMS. By considering for example jet substructure observables it will be possible to test the universality of the extracted medium jet functions. We thus expect that the presented results will eventually allow for extractions of medium properties with a reduced model bias., Comment: 4 pages, 2 figures, XXVIIIth International Conference on Ultrarelativistic Nucleus-Nucleus Collisions (Quark Matter 2019)

Published

2020

14. Pion and Kaon Structure at the Electron-Ion Collider

Author

Aguilar, Arlene C., Ahmed, Zafir, Aidala, Christine, Ali, Salina, Andrieux, Vincent, Arrington, John, Bashir, Adnan, Berdnikov, Vladimir, Binosi, Daniele, Chang, Lei, Chen, Chen, Chen, Muyang, de Melo, João Pacheco B. C., Diefenthaler, Markus, Ding, Minghui, Ent, Rolf, Frederico, Tobias, Gao, Fei, Gothe, Ralf W., Hattawy, Mohammad, Hobbs, Timothy J., Horn, Tanja, Huber, Garth M., Jia, Shaoyang, Keppel, Cynthia, Krein, Gastão, Lin, Huey-Wen, Mezrag, Cédric, Mokeev, Victor, Montgomery, Rachel, Moutarde, Hervé, Nadolsky, Pavel, Papavassiliou, Joannis, Park, Kijun, Pegg, Ian L., Peng, Jen-Chieh, Platchkov, Stephane, Qin, Si-Xue, Raya, Khépani, Reimer, Paul, Richards, David G., Roberts, Craig D., Rodríguez-Quintero, Jose, Sato, Nobuo, Schmidt, Sebastian M., Segovia, Jorge, Tadepalli, Arun, Trotta, Richard, Ye, Zhihong, Yoshida, Rikutaro, and Xu, Shu-Sheng

Subjects

Nuclear Experiment, High Energy Physics - Experiment, High Energy Physics - Lattice, High Energy Physics - Phenomenology, Nuclear Theory

Abstract

Understanding the origin and dynamics of hadron structure and in turn that of atomic nuclei is a central goal of nuclear physics. This challenge entails the questions of how does the roughly 1 GeV mass-scale that characterizes atomic nuclei appear; why does it have the observed value; and, enigmatically, why are the composite Nambu-Goldstone (NG) bosons in quantum chromodynamics (QCD) abnormally light in comparison? In this perspective, we provide an analysis of the mass budget of the pion and proton in QCD; discuss the special role of the kaon, which lies near the boundary between dominance of strong and Higgs mass-generation mechanisms; and explain the need for a coherent effort in QCD phenomenology and continuum calculations, in exa-scale computing as provided by lattice QCD, and in experiments to make progress in understanding the origins of hadron masses and the distribution of that mass within them. We compare the unique capabilities foreseen at the electron-ion collider (EIC) with those at the hadron-electron ring accelerator (HERA), the only previous electron-proton collider; and describe five key experimental measurements, enabled by the EIC and aimed at delivering fundamental insights that will generate concrete answers to the questions of how mass and structure arise in the pion and kaon, the Standard Model's NG modes, whose surprisingly low mass is critical to the evolution of our Universe., Comment: 16 pages, 12 figures, to appear in the European Physical Journal A - "Hadrons and Nuclei"

Published

2019

15. Factorization of jet cross sections in heavy-ion collisions

Author

Qiu, Jian-Wei, Ringer, Felix, Sato, Nobuo, and Zurita, Pia

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, Nuclear Experiment, Nuclear Theory

Abstract

We propose a new phenomenological approach to establish QCD factorization of jet cross sections in the heavy-ion environment. Starting from a factorization formalism in proton-proton collisions, we introduce medium modified jet functions to capture the leading interaction of jets with the hot and dense QCD medium. A global analysis using a Monte Carlo sampling approach is performed in order to reliably determine the new jet functions from the nuclear modification factor of inclusive jets at the LHC. We find that gluon jets are significantly more suppressed due to the presence of the medium than quark jets. In addition, we observe that the jet radius dependence is directly related to the relative suppression of quark and gluon jets. Our approach may help to improve the extraction of medium properties from data., Comment: 6 pages, 4 figures

Published

2019

16. Unveiling the nucleon tensor charge at Jefferson Lab: A study of the SoLID case

Author

Ye, Zhihong, Sato, Nobuo, Allada, Kalyan, Liu, Tianbo, Chen, Jian-Ping, Gao, Haiyan, Kang, Zhong-Bo, Prokudin, Alexei, Sun, Peng, and Yuan, Feng

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, Nuclear Experiment, Nuclear Theory

Abstract

Future experiments at the Jefferson Lab 12 GeV upgrade, in particular, the Solenoidal Large Intensity Device (SoLID), aim at a very precise data set in the region where the partonic structure of the nucleon is dominated by the valence quarks. One of the main goals is to constrain the quark transversity distributions. We apply recent theoretical advances of the global QCD extraction of the transversity distributions to study the impact of future experimental data from the SoLID experiments. Especially, we develop a simple strategy based on the Hessian matrix analysis that allows one to estimate the uncertainties of the transversity quark distributions and their tensor charges extracted from SoLID data simulation. We find that the SoLID measurements with the proton and the effective neutron targets can improve the precision of the u- and d-quark transversity distributions up to one order of magnitude in the range 0.05 < x < 0.6., Comment: 11 pages, 3 figures, published on Physics Letters B

Published

2016

17. Lattice QCD Calculations of Parton Physics

Author

Constantinou, Martha, Del Debbio, Luigi, Ji, Xiangdong, Lin, Huey-Wen, Liu, Keh-Fei, Monahan, Christopher, Orginos, Kostas, Petreczky, Peter, Qiu, Jian-Wei, Richards, David, Sato, Nobuo, Shanahan, Phiala, Yuan, C. -P, Zhang, Jian-Hui, and Yong Zhao

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Lattice, High Energy Physics - Phenomenology (hep-ph), High Energy Physics::Lattice, High Energy Physics - Lattice (hep-lat), FOS: Physical sciences, High Energy Physics::Experiment, Nuclear Experiment

Abstract

In this document, we summarize the status and challenges of calculating parton physics in lattice QCD for the US Particle Physics Community Planning Exercise (a.k.a. "Snowmass"). While PDF-moments calculations have been very successful and been continuously improved, new methods have been developed to calculate distributions directly in $x$-space. Many recent lattice studies have been focused on calculating isovector PDFs of the pion and nucleon, learning to control systematics associated with excited-state contamination, renormalization and continuum extrapolations, pion-mass and finite-volume effects, etc. Although in some cases, the lattice results are already competitive with experimental data, to reach the level of precision in a wide range of $x$ for unpolarized nucleon PDFs impactful for future collider physics remains a challenge, and may require exascale supercomputing power. The new theoretical methods open the door for calculating other partonic observables which will be the focus of the experimental program in nuclear physics, including generalized parton distributions and transverse-momentum dependent PDFs. A fruitful interplay between experimental data and lattice-QCD calculations will usher in a new era for parton physics and hadron structure., Comment: 14 pages

Published

2022

18. Pion structure function from leading neutron electroproduction and SU(2) flavor asymmetry

Author

Sato, Nobuo, Ji, Chueng-Ryong, Melnitchouk, and McKenney

Subjects

High Energy Physics::Phenomenology, Nuclear Theory, High Energy Physics::Experiment, Nuclear Experiment

Abstract

In this paper, we examine the efficacy of pion exchange models to simultaneously describe leading neutron electroproduction at HERA and the $$\bar{d}-\bar{u}$$ flavor asymmetry in the proton. A detailed $$\chi^2$$ analysis of the ZEUS and H1 cross sections, when combined with constraints on the pion flux from Drell-Yan data, allows regions of applicability of one-pion exchange to be delineated. The analysis disfavors several models of the pion flux used in the literature, and yields an improved extraction of the pion structure function and its uncertainties at parton momentum fractions in the pion of $$4 \times 10^{-4} \lesssim x_\pi \lesssim 0.05$$ at a scale of $Q^2$=10 GeV$^2$. Also, we provide estimates for leading proton structure functions in upcoming tagged deep-inelastic scattering experiments on the deuteron with forward protons, based on the fit results, at Jefferson Lab.

Published

2016