Abstract
We consider the one-parameter family of jet substructure observables known as angularities using the specific case of inclusive jets arising from photoproduction events at an Electron-Ion Collider (EIC). We perform numerical calculations at next-to-leading logarithmic accuracy within perturbative QCD and compare our results to PYTHIA 6 predictions. Overall, we find good agreement and conclude that jet substructure observables are feasible at the EIC despite the relatively low jet transverse momentum and particle multiplicities. We investigate the size of subleading power corrections relevant at low energies within the Monte Carlo setup. In order to establish the validity of the Monte Carlo tune, we also perform comparisons to jet shape data at HERA. We further discuss detector requirements necessary for angularity measurements at an EIC, focusing on hadron calorimeter energy and spatial resolutions. Possible applications of precision jet substructure measurements at the EIC include the tuning of Monte Carlo event generators, the extraction of nonperturbative parameters and studies of cold nuclear matter effects.
Highlights
A high energy and high luminosity Electron-Ion Collider (EIC) will be the ideal machine to explore in detail the structure of nucleons and nuclei
The jet angularity measurements are performed on an inclusive jet sample e þ p → e0 þ jet þ X in photoproduction events where jets are reconstructed in the laboratory or center-of-mass frame
The Monte Carlo setup has been tuned to HERA data and we further verified that it reproduces the jet shape data measured by ZEUS/HERA
Summary
A high energy and high luminosity Electron-Ion Collider (EIC) will be the ideal machine to explore in detail the structure of nucleons and nuclei. We systematically explore for the first time the feasibility of jet substructure measurements at the EIC. As we demonstrate in this work, jet substructure measurements are feasible at a future EIC. In this work we present results for jet angularities for EIC kinematics obtained within perturbative QCD. The obtained results are compared to parton shower simulations obtained within a Monte Carlo (MC)-framework based on PYTHIA 6 [25] This comparison allows us to assess nonperturbative aspects of jet substructure observables at the EIC.
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