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The COHERENT Experiment at the Spallation Neutron Source

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arxiv 1509.08702 v2 pith:23C3W4IU submitted 2015-09-29 physics.ins-det hep-exnucl-ex

The COHERENT Experiment at the Spallation Neutron Source

classification physics.ins-det hep-exnucl-ex
keywords coherentcevnsdetectormeasurementcrosssectionsourcestandard
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The COHERENT collaboration's primary objective is to measure coherent elastic neutrino-nucleus scattering (CEvNS) using the unique, high-quality source of tens-of-MeV neutrinos provided by the Spallation Neutron Source (SNS) at Oak Ridge National Laboratory (ORNL). In spite of its large cross section, the CEvNS process has never been observed, due to tiny energies of the resulting nuclear recoils which are out of reach for standard neutrino detectors. The measurement of CEvNS has now become feasible, thanks to the development of ultra-sensitive technology for rare decay and weakly-interacting massive particle (dark matter) searches. The CEvNS cross section is cleanly predicted in the standard model; hence its measurement provides a standard model test. It is relevant for supernova physics and supernova-neutrino detection, and enables validation of dark-matter detector background and detector-response models. In the long term, precision measurement of CEvNS will address questions of nuclear structure. COHERENT will deploy multiple detector technologies in a phased approach: a 14-kg CsI[Na] scintillating crystal, 15 kg of p-type point-contact germanium detectors, and 100 kg of liquid xenon in a two-phase time projection chamber. Following an extensive background measurement campaign, a location in the SNS basement has proven to be neutron-quiet and suitable for deployment of the COHERENT detector suite. The simultaneous deployment of the three COHERENT detector subsystems will test the $N^2$ dependence of the cross section and ensure an unambiguous discovery of CEvNS. This document describes concisely the COHERENT physics motivations, sensitivity and plans for measurements at the SNS to be accomplished on a four-year timescale.

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Cited by 3 Pith papers

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    Neutral-current scattering cross sections for 127I and 133Cs are computed in a unified framework showing incoherent and axial contributions enhance totals near 10 MeV neutrino energy with incoherent dominance near 50 MeV.

  2. Medium Characterization with Hard Probes: From Cherenkov Light in QED to Jet Drift in QCD

    nucl-th 2026-05 unverdicted novelty 5.0

    The work presents a dispersive fit for the refractive index of liquid argon incorporating anomalous dispersion and proposes jet drift in simulations of heavy-ion collisions as a way to disentangle medium properties fr...

  3. Medium Characterization with Hard Probes: From Cherenkov Light in QED to Jet Drift in QCD

    nucl-th 2026-05 unverdicted novelty 4.0

    Presents a dispersive fit for liquid argon refractive index sensitive to Cherenkov angles and uses jet drift in APE simulations to disentangle QGP tomography from energy loss.