Supernova model discrimination with a kilotonne-scale Gd-H$_{2}$O Cherenkov detector [IMA]

http://arxiv.org/abs/2301.08079


The supernova model discrimination capabilities of the WATCHMAN detector concept are explored. This cylindrical kilotonne-scale water Cherenkov detector design has been developed to detect reactor antineutrinos through inverse $\beta$-decay for non-proliferation applications but also has the ability to observe antineutrino bursts of core-collapse supernovae within our galaxy. Detector configurations with sizes ranging from 16 m to 22 m tank diameter and 10% to 20% PMT coverage are used to compare the expected observable antineutrino spectra based on the Nakazato, Vartanyan and Warren supernova models. These spectra are then compared to each other with a fixed event count of 100 observed inverse $\beta$-decay events and a benchmark supernova at 10 kpc distance from Earth. By comparing the expected spectra, each detector configuration’s ability to distinguish is evaluated. This analysis then demonstrates that the detector design is capable of meaningful event discrimination (95+% accuracy) with 100 observed supernova antineutrino events in any configuration. Furthermore, a larger tank configuration can maintain this performance at 10 kpc distance and above, indicating that overall target mass is the main factor for such a detector’s discrimination capabilities.

Read this paper on arXiv…

Y. Schnellbach, J. Migenda, A. Carroll, et. al.
Fri, 20 Jan 23
42/72

Comments: 12 pages, 7 figures, 6 tables. For submission to JCAP