Skip to main content
Open Access Publications from the University of California

Multisite event discrimination for the majorana demonstrator

  • Author(s): Alvis, SI
  • Arnquist, IJ
  • Avignone, FT
  • Barabash, AS
  • Barton, CJ
  • Basu, V
  • Bertrand, FE
  • Bos, B
  • Buuck, M
  • Caldwell, TS
  • Chan, YD
  • Christofferson, CD
  • Chu, PH
  • Cuesta, C
  • Detwiler, JA
  • Ejiri, H
  • Elliott, SR
  • Gilliss, T
  • Giovanetti, GK
  • Green, MP
  • Gruszko, J
  • Guinn, IS
  • Guiseppe, VE
  • Haufe, CR
  • Hegedus, RJ
  • Hehn, L
  • Henning, R
  • Hervas Aguilar, D
  • Hoppe, EW
  • Howe, MA
  • Keeter, KJ
  • Kidd, MF
  • Konovalov, SI
  • Kouzes, RT
  • Lopez, AM
  • Martin, RD
  • Massarczyk, R
  • Meijer, SJ
  • Mertens, S
  • Myslik, J
  • Othman, G
  • Pettus, W
  • Piliounis, A
  • Poon, AWP
  • Radford, DC
  • Rager, J
  • Reine, AL
  • Rielage, K
  • Ruof, NW
  • Shanks, B
  • Shirchenko, M
  • Tedeschi, D
  • Varner, RL
  • Vasilyev, S
  • White, BR
  • Wilkerson, JF
  • Wiseman, C
  • Xu, W
  • Yakushev, E
  • Yu, CH
  • Yumatov, V
  • Zhitnikov, I
  • Zhu, BX
  • et al.

The Majorana Demonstrator is searching for neutrinoless double-beta decay (0νββ) in Ge76 using arrays of point-contact germanium detectors operating at the Sanford Underground Research Facility. Background results in the 0νββ region of interest from data taken during construction, commissioning, and the start of full operations have been recently published. A pulse shape analysis cut applied to achieve this result, named AvsE, is described in this paper. This cut is developed to remove events whose waveforms are typical of multisite energy deposits while retaining (90±3.5)% of single-site events. This pulse shape discrimination is based on the relationship between the maximum current and energy, and tuned using Th228 calibration source data. The efficiency uncertainty accounts for variation across detectors, energy, and time, as well as for the position distribution difference between calibration and 0νββ events, established using simulations.

Main Content
Current View