Bulletin of the American Physical Society
APS April Meeting 2019
Volume 64, Number 3
Saturday–Tuesday, April 13–16, 2019; Denver, Colorado
Session H12: Reactor Based Sterile Neutrino Searches
10:45 AM–12:21 PM,
Sunday, April 14, 2019
Sheraton
Room: Plaza Court 1
Sponsoring
Units:
DNP DPF
Chair: Pieter Mumm, National Institute of Standards and Technology
Abstract: H12.00007 : High-precision gamma-ray spectroscopic study of the main contributor to the reactor antineutrino spectrum: 92Rb*
11:57 AM–12:09 PM
View Presentation Abstract
Presenter:
Elizabeth McCutchan
(Brookhaven National Laboratory)
Authors:
Elizabeth McCutchan
(Brookhaven National Laboratory)
August C Gula
(Notre Dame)
Lemise Saleh
(Brookhaven National Laboratory)
S. Padgett
(Lawrence Livermore National Laboratory)
Nicholas David Scielzo
(Lawrence Livermore Natl Lab)
Karolina Kolos
(Lawrence Livermore Natl Lab)
Michael P Carpenter
(Argonne National Laboratory)
Jason A Clark
(Argonne National Laboratory)
Christopher J Lister
(University of Massachusetts Lowell)
Scott T Marley
(Louisiana State University)
A.J. Mitchell
(Australian National University)
Eric B Norman
(University of California, Berkeley)
Guy Savard
(Argonne National Laboratory)
Alejandro A Sonzogni
(Brookhaven National Laboratory)
Shaofei Zhu
(Argonne National Laboratory)
Two intriguing and unresolved puzzles surround recent measurements and calculations of reactor antineutrino spectra: a deficient in the total number of measured antineutrinos and an excess of antineutrinos for energies from 5-7 MeV. While these observations could point to new physics, a full understanding requires a solid basis of the underlying nuclear physics, namely the beta-decay properties of fission fragments used as inputs to calculate the spectrum. At higher energies in the spectrum, one nucleus, 92Rb, contributes more than 20% to the predicted spectrum. 92Rb was last studied in the 1970’s using primitive detector systems, and thus, revisiting its decay properties is timely. Using the CARIBU facility at Argonne National Lab, we performed a new measurement of the beta-decay of 92Rb. Decays of 92Rb were studied with the SATURN array consisting of 5 HPGe Clover detectors and a large plastic scintillator. The results of the analysis will be presented, including a significantly revised decay scheme. The impact on reactor antineutrino calculations will also be discussed.
*Work supported by DOE NP under Co. DE-AC02-06CH11357, DE-AC02-98CH10886, and DOE NNSA under Award DE-AC52-07NA27344.
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