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Advanced Simulation Techniques for Gaseous Detectors: Application on Spherical Proportional Counters

Project description

Advanced simulation framework supports advanced particle detector development

Gaseous ionisation detectors for the detection of ionising particles are critical to many-particle physics and astrophysics investigations as well as to medical and industrial ones. Simulation of detector performance under various scenarios will be key to success. Integrating simulation tools with the next generation of advanced computational technologies, including graphics processing unit accelerators, will require optimisation. With the support of the Marie Skłodowska-Curie Actions programme, the GaGARin project will combine two proven and powerful simulation toolkits and make the resulting platform freely available to researchers in basic and applied science.

Objective

The “Geant4 and GARfield integration” (GaGARin) project will deliver a powerful and fully validated simulation framework for gaseous detectors. The strengths of the established GEANT4 and GARFIELD++ toolkits will be combined in a flexible framework and made freely available, for the first time, in the public domain to researchers using gaseous detectors for fundamental research and applications. GaGARin will be optimised with advanced compu- tational techniques, targeting growing technologies such as GPUs, and will be exhaustively validated with dedicated measurements from a range of state-of-the-art gaseous detectors, including micro-pattern gaseous detectors (MPGDs) and spherical proportional counters (SPCs). A variety of detector configurations and operating conditions will be explored, to maximally validate the implemented physics modelling. GaGARin will immediately allow for new insights into physics experiments, such as direct dark matter (DM) and neutrinoless double-beta decay searches (0νββ), and design and optimisation of novel detectors. Furthermore, it will enable the implementation of advanced ana- lysis techniques, maximising experimental sensitivity. In industrial applications, where use of gaseous detectors is widespread, GaGARin will open up new possibilities, for example in neutron spectroscopy with SPCs.

Coordinator

THE UNIVERSITY OF BIRMINGHAM
Net EU contribution
€ 212 933,76
Address
Edgbaston
B15 2TT Birmingham
United Kingdom

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Region
West Midlands (England) West Midlands Birmingham
Activity type
Higher or Secondary Education Establishments
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Total cost
€ 212 933,76