Title

Reducing DRIFT Backgrounds with a Submicron Aluminized-Mylar Cathode

Department

Physics

Document Type

Article

Publication Date

9-2015

Abstract

Background events in the DRIFT-IId dark matter detector, mimicking potential WIMP signals, are predominantly caused by alpha decays on the central cathode in which the alpha particle is completely or partially absorbed by the cathode material. We installed a 0.9 μm thick aluminized-mylar cathode as a way to reduce the probability of producing these backgrounds. We study three generations of cathode (wire, thin-film and radiologically clean thin-fim) with focus on the ratio of background events to alpha decays. Two independent methods of measuring the absolute alpha decay rate are used to ensure an accurate result, and agree to within 10%. Using alpha range spectroscopy, we measure the radiologically cleanest cathode version to have a contamination of [...] This cathode reduces the probability of producing an RPR from an alpha decay by a factor of 70 [symbol]20 compared to the original stainless steel wire cathode. First results are presented from a texturized version of the cathode, intended to be even more transparent to alpha particles. These eff orts, along with other background reduction measures, have resulted in a drop in the observed background rate from 500/day to 1/day. With the recent implementation of full-volume fiducialization, these remaining background events are identified, allowing for background-free operation.

Comments

Published version in: Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, Volume 794, 11 September 2015, Pages 33-46.

http://dx.doi.org/10.1016/j.nima.2015.04.070

Version

Pre-print

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