Detectors for Neutrino Physics at the First Muon Collider

Deborah A. Harris (1); Kevin S. McFarland (2); ((1) University of; Rochester; (2) Massachusetts Institute of Technology)

arXiv:hep-ex/9804009·hep-ex·February 2, 2010

Detectors for Neutrino Physics at the First Muon Collider

Deborah A. Harris (1), Kevin S. McFarland (2), ((1) University of, Rochester, (2) Massachusetts Institute of Technology)

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TL;DR

This paper explores detector designs for neutrino experiments at the First Muon Collider, highlighting high-flux neutrino beams enabling advanced deep-inelastic scattering studies and proposing a compact low-energy oscillation experiment.

Contribution

It introduces novel detector concepts tailored for high-flux muon collider neutrino experiments and discusses a compact setup for low-energy neutrino oscillation research.

Findings

01

High-flux muon collider beams enable high-statistics neutrino experiments.

02

Design proposals for low-mass, high-efficiency neutrino detectors.

03

Feasibility of tabletop-scale neutrino oscillation experiments.

Abstract

We consider possible detector designs for short-baseline neutrino experiments using neutrino beams produced at the First Muon Collider complex. The high fluxes available at the muon collider make possible high statistics deep-inelastic scattering neutrino experiments with a low-mass target. A design of a low-energy neutrino oscillation experiment on the ``tabletop'' scale is also discussed.

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