Your search keyword '"Fieg, Max"' showing total 2 results

1. The LHC as a Neutrino-Ion Collider.

Author

Cruz-Martinez, Juan M., Fieg, Max, Giani, Tommaso, Krack, Peter, Mäkelä, Toni, Rabemananjara, Tanjona R., and Rojo, Juan

Subjects

*HEAVY nuclei, *PARTICLE beams, *NEUTRINO scattering, *PROTON-proton interactions, *NEUTRINOS, *GAUGE bosons, *NEUTRINO detectors

Abstract

Proton-proton collisions at the LHC generate a high-intensity collimated beam of neutrinos in the forward (beam) direction, characterised by energies of up to several TeV. The recent observation of LHC neutrinos by FASER ν and SND@LHC signifies that this previously overlooked particle beam is now available for scientific investigation. Here we quantify the impact that neutrino deep-inelastic scattering (DIS) measurements at the LHC would have on the parton distributions (PDFs) of protons and heavy nuclei. We generate projections for DIS structure functions for FASER ν and SND@LHC at Run III, as well as for the FASER ν 2, AdvSND, and FLArE experiments to be hosted at the proposed Forward Physics Facility (FPF) operating concurrently with the High-Luminosity LHC (HL-LHC). We determine that up to one million electron-neutrino and muon-neutrino DIS interactions within detector acceptance can be expected by the end of the HL-LHC, covering a kinematic region in x and Q 2 overlapping with that of the Electron-Ion Collider. Including these DIS projections in global (n)PDF analyses, specifically PDF4LHC21, NNPDF4.0, and EPPS21, reveals a significant reduction in PDF uncertainties, in particular for strangeness and the up and down valence PDFs. We show that LHC neutrino data enable improved theoretical predictions for core processes at the HL-LHC, such as Higgs and weak gauge boson production. Our analysis demonstrates that exploiting the LHC neutrino beam effectively provides CERN with a "Neutrino-Ion Collider" without requiring modifications in its accelerator infrastructure. [ABSTRACT FROM AUTHOR]

Published

2024

2. New physics in single resonant top quarks.

Author

Tong, Shelley, Corcoran, James, Fieg, Max, Fenton, Michael, and Whiteson, Daniel

Abstract

Searches for new physics in the top quark sector are of great theoretical interest, yet some powerful avenues for discovery remain unexplored. We characterize the expected statistical power of the LHC dataset to constrain the single production of heavy top partners T decaying to a top quark and a photon or a top quark and a gluon. We describe an effective interaction which could generate such production, though the limits apply to a range of theoretical models. We find sensitivity to cross sections in the 102 − 105 fb range, for T masses between 300 and 1000 GeV, depending on decay mode. [ABSTRACT FROM AUTHOR]

Published

2024