SPY: A Magnet System for a High-pressure Gaseous TPC Neutrino Detector
Andrea Bersani, Alan D. Bross, Michael Crisler, Stefania Farinon,, Christopher Hayes, Donald Mitchell, Riccardo Musenich, Colin Narug, Jay, Theilacker, Terry Tope, Erik Voirin, Vivek Jain
TL;DR
This paper introduces a novel magnet system design that enables magnetic field analysis in a high-pressure gaseous argon TPC, serving both as a magnetic field source and a pressure vessel for neutrino detection in DUNE.
Contribution
It presents a new integrated magnet and pressure vessel design specifically for high-pressure gaseous argon TPCs in neutrino experiments.
Findings
Design successfully combines magnet and pressure vessel functions.
Applicable to DUNE's near detector ensemble.
Supports precise neutrino track analysis.
Abstract
We present a novel conceptual design for a magnet system that provides the magnetic field necessary for the analysis of tracks in a high-pressure gaseous argon TPC while simultaneously serving as a pressure vessel to contain the TPC gas volume. The magnet was developed within a Near Detector proposal for the Deep Underground Neutrino Experiment (DUNE). The high-pressure gaseous argon TPC is a component proposed to be one of the elements of an ensemble of near detectors that are needed for DUNE
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Taxonomy
TopicsAstrophysics and Cosmic Phenomena · Neutrino Physics Research · Dark Matter and Cosmic Phenomena