Author:
Wilson J.S.,Meyer zu Theenhausen H.,von Krosigk B.,Azadbakht E.,Bunker R.,Hall J.,Hansen S.,Hines B.,Loer B.,Olsen J.T.,Oser S.M.,Partridge R.,Pyle M.,Sander J.,Serfass B.,Toback D.,Watkins S.L.,Zhao X.
Abstract
Abstract
The SuperCDMS SNOLAB dark matter search experiment aims to
be sensitive to energy depositions down to
𝒪(1 eV). This imposes requirements on the resolution,
signal efficiency, and noise rejection of the trigger system. To
accomplish this, the SuperCDMS level-1 trigger system is implemented
in an FPGA on a custom PCB. A time-domain optimal filter algorithm
realized as a finite impulse response filter provides a baseline
resolution of 0.38 times the standard deviation of the noise,
σn, and a 99.9% trigger efficiency for signal
amplitudes of 1.1 σn in typical noise
conditions. Embedded in a modular architecture, flexible trigger
logic enables reliable triggering and vetoing in a dead-time-free
manner for a variety of purposes and run conditions. The trigger
architecture and performance are detailed in this article.
Subject
Mathematical Physics,Instrumentation
Cited by
3 articles.
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