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Optimizing the $^{8}$Li yield for the IsoDAR Neutrino Experiment

Published 1 May 2018 in physics.ins-det, hep-ex, hep-ph, and physics.acc-ph | (1805.00410v1)

Abstract: The focus of this paper is on optimizing the electron-antineutrino source for the IsoDAR (Isotope Decay at Rest) experimental program. IsoDAR will perform sensitive short-baseline neutrino oscillation and electroweak measurements, among other Beyond Standard Model searches, in combination with KamLAND and/or other suitable detectors. IsoDAR will rely on the high-$Q$ $\beta-$ decay of the ${8}$Li isotope for producing electron-antineutrinos, created mainly via neutron capture in an isotopically enriched ${7}$Li sleeve surrounding the Be target. In particular, this paper examines the performance, defined in terms of absolute ${8}$Li (or, equivalently, electron-antineutrino) production rate, of various candidate sleeve materials, including a lithium-fluoride, beryllium-fluoride mixture ("FLiBe") sleeve and a homogeneous mixture of lithium and beryllium ("Li-Be"). These studies show that the ${8}$Li yield can be increased substantially by employing a Li-Be sleeve and therefore motivate significant changes to the nominal IsoDAR design.

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