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1. New metric improving Bayesian calibration of a multistage approach studying hadron and inclusive jet suppression

   https://doi.org/10.1103/PhysRevC.109.064903  

   Fan, W; Vujanovic, G; Bass, S A; Angerami, A; Arora, R; Cao, S; Chen, Y; Dai, T; Du, L; Ehlers, R; et al (June 2024, Physical Review C)

   We study parton energy-momentum exchange with the quark gluon plasma (QGP) within a multistage approach composed of in-medium Dokshitzer-Gribov-Lipatov-Altarelli-Parisi evolution at high virtuality, and (linearized) Boltzmann transport formalism at lower virtuality. This multistage simulation is then calibrated in comparison with high- $p_T$charged hadrons, $D$mesons, and the inclusive jet nuclear modification factors, using Bayesian model-to-data comparison, to extract the virtuality-dependent transverse momentum broadening transport coefficient $\hat{q}$. To facilitate this undertaking, we develop a quantitative metric for validating the Bayesian workflow, which is used to analyze the sensitivity of various model parameters to individual observables. The usefulness of this new metric in improving Bayesian model emulation is shown to be highly beneficial for future such analyses. Published by the American Physical Society2024 

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2. Nonlocal chiral contributions to generalized parton distributions of the proton at nonzero skewness

   https://doi.org/10.1103/PhysRevD.110.054049  

   Gao, Zhengyang; He, Fangcheng; Ji, Chueng-Ryong; Melnitchouk, W; Salamu, Y; Wang, P (September 2024, Physical Review D)

   We compute the one-loop contributions to spin-averaged generalized parton distributions (GPDs) in the proton from pseudoscalar mesons with intermediate octet and decuplet baryon states at nonzero skewness. Our framework is based on nonlocal covariant chiral effective theory, with ultraviolet divergences regularized by introducing a relativistic regulator derived consistently from the nonlocal Lagrangian. Using the splitting functions calculated from the nonlocal Lagrangian, we find the nonzero skewness GPDs from meson loops by convoluting with the phenomenological pion GPD and the generalized distribution amplitude, and verify that these satisfy the correct polynomiality properties. We also compute the lowest two moments of GPDs to quantify the meson loop effects on the Dirac, Pauli, and gravitational form factors of the proton. Published by the American Physical Society2024 

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3. High-Statistics Measurement of Collins and Sivers Asymmetries for Transversely Polarized Deuterons

   https://doi.org/10.1103/PhysRevLett.133.101903  

   Alexeev, G D; Alexeev, M G; Alice, C; Amoroso, A; Andrieux, V; Anosov, V; Asatryan, S; Augsten, K; Augustyniak, W; Azevedo, C_D R; et al (September 2024, Physical Review Letters)

   New results are presented on a high-statistics measurement of Collins and Sivers asymmetries of charged hadrons produced in deep inelastic scattering of muons on a transversely polarized ${}^6\mathrm{LiD}$target. The data were taken in 2022 with the COMPASS spectrometer using the 160 GeV muon beam at CERN, statistically balancing the existing data on transversely polarized proton targets. The first results from about two-thirds of the new data have total uncertainties smaller by up to a factor of three compared to the previous deuteron measurements. Using all the COMPASS proton and deuteron results, both the transversity and the Sivers distribution functions of the $u$and $d$quark, as well as the tensor charge in the measured $x$range are extracted. In particular, the accuracy of the $d$quark results is significantly improved. Published by the American Physical Society2024 

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4. Nonperturbative aspects of the electromagnetic pion form factor at high energies

   https://doi.org/10.1103/PhysRevD.111.054034  

   Quirion, K; Fernández-Ramírez, C; Mathieu, V; Montaña, G; Perry, R J; Pilloni, A; Rodas, A; Shastry, V; Smith, W A; Szczepaniak, A P; et al (March 2025, Physical Review D)

   The structure of hadronic form factors at high energies and their deviations from perturbative quantum chromodynamics provide insight on nonperturbative dynamics. Using an approach that is consistent with dispersion relations, we construct a model that simultaneously accounts for the pion wave function, gluonic exchanges, and quark Reggeization. In particular, we find that quark Reggeization can be investigated at high energies by studying scaling violation of the form factor. Published by the American Physical Society2025 

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5. Quantum energies of solitons with different topological charges

   https://doi.org/10.1103/PhysRevD.111.085031  

   Graham, N; Weigel, H (April 2025, Physical Review D)

   The vacuum polarization energy is the leading quantum correction to the classical energy of a soliton. We study this energy for two-component solitons in one space dimension as a function of the soliton’s topological charge. We find that both the classical and the vacuum polarization energies are linear functions of the topological charge with a small offset. Because the combination of the classical and quantum offsets determines the binding energies, either all higher charge solitons are energetically bound or they are all unbound, depending on model parameters. This linearity persists even when the field configurations are very different from those of isolated solitons and would not be apparent from an analysis of their bound state spectra alone. Published by the American Physical Society2025 

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