Multilayer scintillator responses for Mo observatory of neutrino experiment studied using a prototype detector MOON-1
/ Authors
H. Nakamura, P. Doe, H. Ejiri, S. Elliott, J. Engel, M. Finger, M. Finger, K. Fushimi, V. Gehman, A. Gorin
and 43 more authors
M. Greenfield, V. H. Hai, R. Hazama, K. Higa, T. Higashiguchi, K. Ichihara, Y. Ikegami, J. Imoto, H. Ishii, T. Itahashi, H. Kaneko, P. Kavitov, H. Kawasuso, V. Kekelidze, K. Matsuoka, T. Mizuhashi, D. Noda, M. Nomachi, K. Onishi, T. Ogama, A. Para, R. Robertson, M. Sakamoto, T. Sakiuchi, Y. Samejima, Y. Shichijo, T. Shima, Y. Shimada, G. Shirkov, A. Sissakian, M. Slunecka, Y. Sugaya, A. Titov, M. Uenoyama, S. Umehara, A. Urano, V. Vatulin, V. Voronov, J. Wilkerson, D. Will, K. Yasuda, S. Yoshida, M. Yoshihuku
/ Abstract
An ensemble of multilayer scintillators is discussed as an option of the high-sensitivity detector MOON (Mo Observatory of Neutrinos) for spectroscopic measurements of neutrinoless double beta decays. A prototype detector MOON-1, which consists of 6-layer plastic scintillator plates, was built to study the photon responses of the MOON-type detector. The photon responses, i.e., the number of scintillation photons collected and the energy resolution, which are key elements for high-sensitivity experiments, are found to be 1835 � 30 photoelectrons for 976 keV electrons and � ¼ 2:9 � 0:1% (� E=E ¼ 6:8 � 0:3% in FWHM) at the Q�� � 3 MeV region, respectively. The multilayer plastic scintillator structure with high energy resolution as well as a good signal for the background suppression of � –� rays is crucial for the MOON-type detector to achieve inverted-hierarchy neutrino-mass sensitivity. It will also be useful for medical and other rare-decay experiments as well.
Journal: Journal of the Physical Society of Japan