Investigation of the Energy Resolution Scaling in CUORE Calorimeters
ORAL
Abstract
The Cryogenic Underground Observatory for Rare Events (CUORE) is an experiment searching for neutrinoless double beta decay in a ton-scale detector, located at the Gran Sasso National Laboratory in Italy. Utilizing a detector comprised of TeO2 crystals, CUORE operates at millikelvin temperatures to achieve sensitive measurements of temperature fluctuations from deposited energy.
The excellent energy resolution of the calorimetric detectors is critical to the search for neutrinoless double beta decay and other rare events. To reliably evaluate the detector performance and handle the uncertainties in the region of interest, we model our signals empirically and characterize the detector response by scaling the energy resolution as a function of energy, which is used in the CUORE 2-ton-year analysis. We observed a turn-on in our scaling function and investigated possible reasons with simulation, the results of which are presented here.
The excellent energy resolution of the calorimetric detectors is critical to the search for neutrinoless double beta decay and other rare events. To reliably evaluate the detector performance and handle the uncertainties in the region of interest, we model our signals empirically and characterize the detector response by scaling the energy resolution as a function of energy, which is used in the CUORE 2-ton-year analysis. We observed a turn-on in our scaling function and investigated possible reasons with simulation, the results of which are presented here.
–
Presenters
-
Tong Zhu
University of California, Berkeley
Authors
-
Tong Zhu
University of California, Berkeley
-
Kenneth Vetter
Massachusetts Institute of Technology, University of California, Berkeley
-
Bradford C Welliver
UC Berkeley
-
Yury G Kolomensky
University of California, Berkeley