Descripción del proyecto
Detección de los mejores detectores de ionización gaseosa
Un multiplicador de electrones de gas (GEM, por sus siglas en inglés) es un tipo de detector de ionización gaseosa que se utiliza en física de partículas. Los GEM son un tipo de detectores de gas microestructurados, que incluyen Micromegas y otras tecnologías. Los futuros detectores requieren unas técnicas de producción mejoradas a fin de facilitar su industrialización para otras aplicaciones no académicas, como la seguridad y las imágenes médicas. El proyecto FEST, financiado con fondos europeos, desarrollará técnicas para mejorar el rendimiento de la producción y reducir el tiempo de construcción, lo que también permitiría reducir considerablemente los costes. Este es uno de los principales objetivos de este proyecto. Además, realizará simulaciones Monte-Carlo de futuros experimentos que mejorarán y actualizarán los generadores de eventos a los nuevos escenarios de experimentación.
Objetivo
Future Experiments (FE) in Particle Physics face new challenges both in terms of large areas and high rates. Extended R&D activities on existing detectors such as GEM, MicroMegas, micro-RWell, silicon detectors, large volume drift chambers, as well as detectors still to be fully developed like Dual Readout Calorimeters, are the ingredients to build any experiment at future accelerators (as CepC, FCC, ILC or Muon Collider).
The very large scales of future detectors require new and improved production techniques. Their industrialization would allow for: a plethora of non-academic applications such as homeland security, monitoring devices as well as medical imaging applications; a better production yield and a reduced construction time; a significant cost reduction. This is one of the main goals of our intersectorial activities within the Project.
FE will face unprecedented experimental conditions, with strong magnetic fields and extremely high luminosities. New Front End Electronics (FEE), and new digitization, clustering and tracking algorithms must be developed and optimized. An ideal playground for such processes is the BESIII Cylindrical GEM Inner Tracker (CGEM-IT) that is being built and will be installed at IHEP, Beijing, by mid of Reporting Period 2. This will be the first time that a GEM is operated in a 1 T magnetic field being readout in micro-TPC mode and exploiting the TIGER, a fully custom ASIC for MPGD readout.
Another aim of the project is to develop a new generation of general purpose ASICs, capable of interfacing with several different detector types.
FEST also aims to perform MonteCarlo simulations of FE, improving and updating event generators to the new experimental scenarios.
All these activities require a large computing power. A possible approach involving cloud and HPC techniques on micro infrastructures will be investigated; special care will be devoted to applications that could ease the access of SMEs to local cloud technologies.
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MSCA-RISE - Marie Skłodowska-Curie Research and Innovation Staff Exchange (RISE)Coordinador
00044 Frascati
Italia