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arxiv: 1210.4454 · v1 · submitted 2012-10-16 · ⚛️ physics.acc-ph · hep-ex· nucl-ex

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Cost-effective Design Options for IsoDAR

A. Adelmann , J.R. Alonso , W. Barletta , R. Barlow , L. Bartoszek , A. Bungau , L. Calabretta , A. Calanna
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D. Campo J.M. Conrad Z. Djurcic Y. Kamyshkov H. Owen M.H. Shaevitz I. Shimizu T. Smidt J. Spitz M. Toups M. Wascko L.A. Winslow J.J. Yang
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classification ⚛️ physics.acc-ph hep-exnucl-ex
keywords designelectronisodarantineutrinocostenergyoptionsvalue
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This whitepaper reviews design options for the IsoDAR electron antineutrino source. IsoDAR is designed to produce $2.6 \times 10^{22}$ electron antineutrinos per year with an average energy of 6.4 MeV, using isotope decay-at-rest. Aspects which must be balanced for cost-effectiveness include: overall cost; rate and energy distribution of the electron antineutrino flux and backgrounds; low technical risk; compactness; simplicity of underground construction and operation; reliability; value to future neutrino physics programs; and value to industry. We show that the baseline design outlined here is the most cost effective.

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