First Measurement of the e and μ Interaction Cross Sections at the LHC with FASER's Emulsion Detector

Abstract

This paper presents the first results of the study of high-energy electron and muon neutrino charged-current interactions in the FASER emulsion/tungsten detector of the FASER experiment at the LHC. A subset of the FASER volume, which corresponds to a target mass of 128.6~kg, was exposed to neutrinos from the LHC pp collisions with a centre-of-mass energy of 13.6~TeV and an integrated luminosity of 9.5 fb-1. Applying stringent selections requiring electrons with reconstructed energy above 200~GeV, four electron neutrino interaction candidate events are observed with an expected background of 0.025+0.015-0.010, leading to a statistical significance of 5.2σ. This is the first direct observation of electron neutrino interactions at a particle collider. Eight muon neutrino interaction candidate events are also detected, with an expected background of 0.22+0.09-0.07, leading to a statistical significance of 5.7σ. The signal events include neutrinos with energies in the TeV range, the highest-energy electron and muon neutrinos ever detected from an artificial source. The energy-independent part of the interaction cross section per nucleon is measured over an energy range of 560--1740 GeV (520--1760 GeV) for e (μ) to be (1.2-0.7+0.8) × 10-38~cm2\,GeV-1 ((0.50.2) × 10-38~cm2\,GeV-1), consistent with Standard Model predictions. These are the first measurements of neutrino interaction cross sections in those energy ranges.