A New Heavy Flavor Program for the Future Electron-Ion Collider

The proposed high-energy and high-luminosity Electron–Ion Collider (EIC) will provide one of the cleanest environments to precisely determine the nuclear parton distribution functions (nPDFs) in a wide x – Q 2 range. Heavy flavor production at the EIC provides access to nPDFs in the poorly constrain...

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Main Authors: Li, Xuan, Vitev, Ivan, Brooks, Melynda, Cincio, Lukasz, Matthew Durham, J., Graesser, Michael, Liu, Ming X., Morreale, Astrid, Neill, Duff, da Silva, Cesar, Sondheim, Walter E., Yoon, Boram
Format: Conference Proceeding
Language:English
Subjects:
Atomic, Nuclear and Particle Physics
Distribution functions
Energy dissipation
Feasibility studies
Flavor (particle physics)
Fragmentation
Gluons
Heavy ions
Large Hadron Collider
Luminosity
Nuclear matter
Partons
Relativistic Heavy Ion Collider
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Summary:The proposed high-energy and high-luminosity Electron–Ion Collider (EIC) will provide one of the cleanest environments to precisely determine the nuclear parton distribution functions (nPDFs) in a wide x – Q 2 range. Heavy flavor production at the EIC provides access to nPDFs in the poorly constrained high Bjorken- x region, allows us to study the quark and gluon fragmentation processes, and constrains parton energy loss in cold nuclear matter. Scientists at the Los Alamos National Laboratory are developing a new physics program to study heavy flavor production, flavor tagged jets, and heavy flavor hadron-jet correlations in the nucleon/nucleus going direction at the future EIC. The proposed measurements will provide a unique way to explore the flavor dependent fragmentation functions and energy loss in a heavy nucleus. They will constrain the initial-state effects that are critical for the interpretation of previous and ongoing heavy ion measurements at the Relativistic Heavy Ion Collider and the Large Hadron Collider. We show an initial conceptual design of the proposed Forward Silicon Tracking (FST) detector at the EIC, which is essential to carry out the heavy flavor measurements. We further present initial feasibility studies/simulations of heavy flavor hadron reconstruction using the proposed FST.
ISSN:2100-014X
2101-6275
2100-014X
DOI:10.1051/epjconf/202023504002