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Tomography of pions and protons via transverse momentum dependent distributions

https://doi.org/10.1103/PhysRevD.108.L091504

Barry, P. C. ; Gamberg, L. ; Melnitchouk, W. ; Moffat, E. ; Pitonyak, D. ; Prokudin, A. ; Sato, N. ( November 2023 , Physical Review D)

Free, publicly-accessible full text available November 1, 2024
Basics of factorization in a scalar Yukawa field theory

https://doi.org/10.1103/PhysRevD.107.074031

Aslan, F. ; Gamberg, L. ; Gonzalez-Hernandez, J. O. ; Rainaldi, T. ; Rogers, T. C. ( April 2023 , Physical Review D)

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New tool for kinematic regime estimation in semi-inclusive deep-inelastic scattering

https://doi.org/10.1007/JHEP04(2022)084

Boglione, M. ; Diefenthaler, M. ; Dolan, S. ; Gamberg, L. ; Melnitchouk, W. ; Pitonyak, D. ; Prokudin, A. ; Sato, N. ; Scalyer, Z. ( April 2022 , Journal of High Energy Physics)

A bstract We introduce a new phenomenological tool based on momentum region indicators to guide the analysis and interpretation of semi-inclusive deep-inelastic scattering measurements. The new tool, referred to as “affinity”, is devised to help visualize and quantify the proximity of any experimental kinematic bin to a particular hadron production region, such as that associated with transverse momentum dependent factorization. We apply the affinity estimator to existing HERMES and COMPASS data and expected data from Jefferson Lab and the future Electron-Ion Collider. We also provide an interactive notebook based on Machine Learning for fast evaluation of affinity.
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The Drell-Yan process with pions and polarized nucleons

https://doi.org/10.1007/JHEP02(2021)166

Bastami, S. ; Gamberg, L. ; Parsamyan, B. ; Pasquini, B. ; Prokudin, A. ; Schweitzer, P. ( February 2021 , Journal of High Energy Physics)
null (Ed.)
A bstract The Drell-Yan process provides important information on the internal struc- ture of hadrons including transverse momentum dependent parton distribution functions (TMDs). In this work we present calculations for all leading twist structure functions de- scribing the pion induced Drell-Yan process. The non-perturbative input for the TMDs is taken from the light-front constituent quark model, the spectator model, and available parametrizations of TMDs extracted from the experimental data. TMD evolution is im- plemented at Next-to-Leading Logarithmic precision for the first time for all asymmetries. Our results are compatible with the first experimental information, help to interpret the data from ongoing experiments, and will allow one to quantitatively assess the models in future when more precise data will become available.
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The present and future of QCD

https://doi.org/10.1016/j.nuclphysa.2024.122874

Achenbach, P. ; Adhikari, D. ; Afanasev, A. ; Afzal, F. ; Aidala, C.A. ; Al-bataineh, A. ; Almaalol, D.K. ; Amaryan, M. ; Androić, D. ; Armstrong, W.R. ; et al ( July 2024 , Nuclear Physics A)

Free, publicly-accessible full text available July 1, 2025
Precision studies of QCD in the low energy domain of the EIC

https://doi.org/10.1016/j.ppnp.2023.104032

Burkert, V.D. ; Elouadrhiri, L. ; Afanasev, A. ; Arrington, J. ; Contalbrigo, M. ; Cosyn, W. ; Deshpande, A. ; Glazier, D.I. ; Ji, X. ; Liuti, S. ; et al ( March 2023 , Progress in Particle and Nuclear Physics)

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Relating transverse-momentum-dependent and collinear factorization theorems in a generalized formalism

https://doi.org/10.1103/PhysRevD.94.034014

Collins, J. ; Gamberg, L. ; Prokudin, A. ; Rogers, T. C. ; Sato, N. ; Wang, B. ( August 2016 , Physical Review D)
Science Requirements and Detector Concepts for the Electron-Ion Collider

https://doi.org/10.1016/j.nuclphysa.2022.122447

Abdul Khalek, R. ; Accardi, A. ; Adam, J. ; Adamiak, D. ; Akers, W. ; Albaladejo, M. ; Al-bataineh, A. ; Alexeev, M.G. ; Ameli, F. ; Antonioli, P. ; et al ( October 2022 , Nuclear Physics A)

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