GTT has been awarded a contract by the Lawrence Berkeley National Laboratory to support research work for the Deep Underground Neutrino Experiment1 (“DUNE”) under the auspices of the U.S. Department of Energy’s Fermi National Laboratory (“Fermilab”). Under this contract, GTT will provide engineering and construction studies for the adaptation of its membrane technology inside a cryostat2 designed by the Lawrence Berkeley National Laboratory and its partners.
DUNE is a major international experiment that aims to increase the understanding of neutrinos. The project takes advantage of the neutrinos produced by the Long-Baseline Neutrino Facility (LBNF) at Fermilab, which are subsequently screened in the particle detectors filled with liquid argon. Liquid argon used in this experimental context has to be maintained at an extremely stable temperature of -186°C, in an environment that secures, through perfect tightness, the purity of materials and a high level of thermal isolation.
This new contract follows the contract signed by GTT in 2018 with the CERN3, on behalf of the LBNF/DUNE4-US Project. In the framework of this previous collaboration, GTT contributed the final design of the far detector cryostats. The new contract will focus on the inner vessel design installed inside a warm support structure, for the liquid argon near detector.
Philippe Berterottière, Chairman and CEO of GTT, declared: “This new contract showcases the reliability and flexibility of the technologies developed by the GTT group. We are proud to provide technologies that can meet the technical and scientific requirements of the DUNE project, and to work with the Lawrence Berkeley National Laboratory, one of the most prestigious National Laboratories in the United States.”
Fabrice Matichard, Lead Engineer for the LBNF/DUNE-US Near Detector Subproject and Head of the Lawrence Berkeley National Laboratory Mechanical Engineering department stated: “Our collaboration with GTT will provide the membrane technology for the liquid argon detector. This new cryostat design incorporates features such as the ability to travel on rails and a low-density composite wall to probe neutrinos with the level of precision required by the DUNE experiment.”