Physics case for low-s QCD studies at FCC-ee
Abstract
Measurements of hadronic final states in e+e- collisions at centre-of-mass (CM) energies below the Z peak can notably extend the FCC-ee physics reach in terms of precision quantum chromodynamics (QCD) studies. Hadronic final states can be studied over a range of hadronic energies shad ≈ 20--80\,GeV by exploiting events with hard initial- and final-state QED radiation (ISR/FSR) during the high-luminosity Z-pole run, as well as in dedicated short (about one month long) e+e- runs at CM energies s ≈ 40\,GeV and 60\,GeV. Using realistic estimates and fast detector simulations, we show that data samples of about 109 hadronic events can be collected at the FCC-ee at each of the low-CM-energy points. Such datasets can be exploited in a variety of precision QCD measurements, including studies of light-, heavy-quark and gluon jet properties, hadronic event shapes, fragmentation functions, and nonperturbative dynamics. This will offer valuable insights into strong interaction physics, complementing data from nominal FCC-ee runs at higher center-of-mass energies, s ≈ 91, 160, 240, and 365\,GeV.
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