TL;DR
This paper discusses the design and R&D activities of GLACIER, a large liquid argon detector aimed at advancing neutrino physics and proton decay research.
Contribution
It presents the conceptual design of GLACIER and details the ongoing R&D efforts to develop this large-scale liquid argon detector.
Findings
Design of a 100 kton liquid argon detector
Progress in R&D activities for GLACIER
Potential applications in neutrino physics and proton decay
Abstract
Liquid argon detectors, with mass up to 100 kton, are being actively studied in the context of proton decay searches, neutrino astrophysics and for the next generation of long baseline neutrino oscillation experiments to study the neutrino mass hierarchy and CP violation in the leptonic sector. The proposed Giant Liquid Argon Charge Imaging ExpeRiment (GLACIER) offers a well defined conceptual design for such a detector. In this paper we present the GLACIER design and some of the R&D activities pursued within the GLACIER.
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