Design and construction of Xenoscope -- a full-scale vertical demonstrator for the DARWIN observatory

TL;DR

Xenoscope is a full-scale vertical demonstrator designed for the DARWIN dark matter experiment, validating key technological components like electron drift over 2.6 meters and infrastructure readiness for future detector development.

Contribution

This work presents the design, construction, and commissioning of a full-scale xenon TPC demonstrator for DARWIN, addressing critical technological challenges.

Findings

Reliable operation of cryogenic and control systems over 40 days

Successful demonstration of electron drift over 2.6 meters

Infrastructure ready for integration of the TPC and further R&D

Abstract

The DARWIN observatory is a proposed next-generation experiment to search for particle dark matter and other rare interactions. It will operate a 50 t liquid xenon detector, with 40 t in the time projection chamber (TPC). To inform the final detector design and technical choices, a series of technological questions must first be addressed. Here we describe a full-scale demonstrator in the vertical dimension, Xenoscope, with the main goal of achieving electron drift over a 2.6 m distance, which is the scale of the DARWIN TPC. We have designed and constructed the facility infrastructure, including the cryostat, cryogenic and purification systems, the xenon storage and recuperation system, as well as the slow control system. We have also designed a xenon purity monitor and the TPC, with the fabrication of the former nearly complete. In a first commissioning run of the facility without an inner detector, we demonstrated the nominal operational reach of Xenoscope and benchmarked the components of the cryogenic and slow control systems, demonstrating reliable and continuous operation of all subsystems over 40 days. The infrastructure is thus ready for the integration of the purity monitor, followed by the TPC. Further applications of the facility include R&D on the high voltage feedthrough for DARWIN, measurements of electron cloud diffusion, as well as measurements of optical properties of liquid xenon. In the future, Xenoscope will be available as a test platform for the DARWIN collaboration to characterise new detector technologies.