The authors define a generalised-k_t jet algorithm family for DIS in the Breit frame, extending the prior p=0 case, and test its use for struck-quark jet identification and non-perturbative effects.
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3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
years
2026 3verdicts
UNVERDICTED 3representative citing papers
Applies Lorentz-boosted form factors via Licht-Pagnamenta and Mitra-Kumari formalisms to link nuclear boosts with cluster configurations and resolve light nuclei charge radius discrepancies.
Fitting ATLAS and CMS dilepton data within a dipole form factor model yields an effective proton radius of 1.002 ± 0.038 fm, showing sensitivity to the radius but not resolving the puzzle.
citing papers explorer
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A generalised-$k_t$ jet algorithm for Deep Inelastic Scattering
The authors define a generalised-k_t jet algorithm family for DIS in the Breit frame, extending the prior p=0 case, and test its use for struck-quark jet identification and non-perturbative effects.
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Clustering in hadrons and light nuclei from Lorentz boosted form factors
Applies Lorentz-boosted form factors via Licht-Pagnamenta and Mitra-Kumari formalisms to link nuclear boosts with cluster configurations and resolve light nuclei charge radius discrepancies.
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Sensitivity of the photon-induced processes to the proton radius
Fitting ATLAS and CMS dilepton data within a dipole form factor model yields an effective proton radius of 1.002 ± 0.038 fm, showing sensitivity to the radius but not resolving the puzzle.