Performance of a segmented 6Li-loaded liquid scintillator detector for the PROSPECT experiment

J. Ashenfelter; A.B. Balantekin; H.R. Band; C.D. Bass; D.E. Bergeron; D. Berish; N.S. Bowden; J.P. Brodsky; C.D. Bryan; A. Bykadorova Telles; J.J. Cherwinka; T. Classen; K. Commeford; A. Conant; D. Davee; G. Deichert; M.V. Diwan; M.J. Dolinski; A. Erickson; B.T. Foust; J.K. Gaison; A. Galindo-Uribarri; K. Gilje; B. Hackett; K. Han; S. Hans; A. Hansell; K.M. Heeger; B. Heffron; J. Insler; D.E. Jaffe; D. Jones; O. Kyzylova; C.E. Lane; T.J. Langford; J. LaRosa; B.R. Littlejohn; F. Lopez; D.A. Martinez Caicedo; J. Matta; R.D. McKeown; M.P. Mendenhall; J. Minock; P.E. Mueller; H.P. Mumm; J. Napolitano; R. Neilson; J.A. Nikkel; D. Norcini; S. Nour; D.A. Pushin; X. Qian; E. Romero-Romero; R. Rosero; P.T. Surukuchi; C. Trinh; M.A. Tyra; J.M. Wagner; C. White; J. Wilhelmi; T. Wise; M. Yeh; Y.-R. Yen; A. Zhang; C. Zhang; X. Zhang

doi:10.1088/1748-0221/13/06/P06023

Journal of Instrumentation

Performance of a segmented ⁶Li-loaded liquid scintillator detector for the PROSPECT experiment

J. Ashenfelter¹⁶, A.B. Balantekin¹³, H.R. Band¹⁶, C.D. Bass⁶, D.E. Bergeron⁷, D. Berish¹⁰, N.S. Bowden⁵, J.P. Brodsky⁵, C.D. Bryan⁸, A. Bykadorova Telles¹⁶, J.J. Cherwinka¹⁴, T. Classen⁵, K. Commeford², A. Conant³, D. Davee¹⁵, G. Deichert⁸, M.V. Diwan¹, M.J. Dolinski², A. Erickson³, B.T. Foust¹⁶, J.K. Gaison¹⁶, A. Galindo-Uribarri^9,11, K. Gilje⁴, B. Hackett^9,11, K. Han¹⁶, S. Hans¹, A. Hansell¹⁰, K.M. Heeger¹⁶, B. Heffron^9,11, J. Insler², D.E. Jaffe¹, D. Jones¹⁰, O. Kyzylova², C.E. Lane², T.J. Langford¹⁶, J. LaRosa⁷, B.R. Littlejohn⁴, F. Lopez¹⁶, D.A. Martinez Caicedo⁴, J. Matta⁹, R.D. McKeown¹⁵, M.P. Mendenhall⁵, J. Minock², P.E. Mueller⁹, H.P. Mumm⁷, J. Napolitano¹⁰, R. Neilson², J.A. Nikkel¹⁶, D. Norcini¹⁶, S. Nour⁷, D.A. Pushin¹², X. Qian¹, E. Romero-Romero^9,11, R. Rosero¹, P.T. Surukuchi⁴, C. Trinh², M.A. Tyra⁷, J.M. Wagner², C. White⁴, J. Wilhelmi¹⁰, T. Wise¹⁶, M. Yeh¹, Y.-R. Yen², A. Zhang¹, C. Zhang¹ and X. Zhang⁴

Published 29 June 2018 • © 2018 IOP Publishing Ltd and Sissa Medialab
Journal of Instrumentation, Volume 13, June 2018 Citation J. Ashenfelter et al 2018 JINST 13 P06023 DOI 10.1088/1748-0221/13/06/P06023

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Author affiliations

¹ Brookhaven National Laboratory, Upton, New York 11973, U.S.A.

² Department of Physics, Drexel University, Philadelphia, PA, U.S.A.

³ George W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA U.S.A.

⁴ Department of Physics, Illinois Institute of Technology, Chicago, IL, U.S.A.

⁵ Nuclear and Chemical Sciences Division, Lawrence Livermore National Laboratory, Livermore, CA, U.S.A.

⁶ Department of Physics, Le Moyne College, Syracuse, NY, U.S.A.

⁷ National Institute of Standards and Technology, Gaithersburg, MD, U.S.A.

⁸ High Flux Isotope Reactor, Oak Ridge National Laboratory, Oak Ridge, TN, U.S.A.

⁹ Physics Division, Oak Ridge National Laboratory, Oak Ridge, TN, U.S.A.

¹⁰ Department of Physics, Temple University, Philadelphia, PA, U.S.A.

¹¹ Department of Physics and Astronomy, University of Tennessee, Knoxville, TN, U.S.A.

¹² Institute for Quantum Computing and Department of Physics and Astronomy, University of Waterloo, Waterloo, ON, Canada

¹³ Department of Physics, University of Wisconsin, Madison, Madison, WI, U.S.A.

¹⁴ Physical Sciences Laboratory, University of Wisconsin, Madison, Madison, WI, U.S.A.

¹⁵ Department of Physics, College of William and Mary, Williamsburg, VA, U.S.A.

¹⁶ Wright Laboratory, Department of Physics, Yale University, New Haven, CT, U.S.A.

Dates

Received 24 May 2018
Accepted 19 June 2018
Published 29 June 2018

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Abstract

This paper describes the design and performance of a 50 liter, two-segment ⁶Li-loaded liquid scintillator detector that was designed and operated as prototype for the PROSPECT (Precision Reactor Oscillation and Spectrum) Experiment. The two-segment detector was constructed according to the design specifications of the experiment. It features low-mass optical separators, an integrated source and optical calibration system, and materials that are compatible with the ⁶Li-doped scintillator developed by PROSPECT. We demonstrate a high light collection of 850±20 PE/MeV, an energy resolution of σ = 4.0±0.2% at 1 MeV, and efficient pulse-shape discrimination of low dE/dx (electronic recoil) and high dE/dx (nuclear recoil) energy depositions. An effective scintillation attenuation length of 85±3 cm is measured in each segment. The 0.1% by mass concentration of ⁶Li in the scintillator results in a measured neutron capture time of τ = 42.8±0.2 μs. The long-term stability of the scintillator is also discussed. The detector response meets the criteria necessary for achieving the PROSPECT physics goals and demonstrates features that may find application in fast neutron detection.

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