Your search keyword '"TENDIGEM"' showing total 2 results

1. Optimization of the gas flow in a GEM chamber and development of the GEM foil stretcher

Author

Noto Francesco, de Smet Valerie, Bellini Vincenzo, Cisbani Evaristo, Librizzi Francesco, Mammoliti Francesco, and Sutera Maria Concetta

Subjects

gas electron multiplier foil, TENDIGEM, fluid dynamics, simulation, SBS tracker, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

The gas electron multiplier technology has been proven to tolerate rat e larger than 50 MHz/cm2 without noticeable aging and to provide sub resolution on working chambers up to 45 cm x 45 cm. A new gas electron multiplier-based tracker is under development for the Hall A upgrade at Jefferson Lab. The chambers of the tracker have been designed in a modular way: each chamber consists of 3 adjacent gas electron multiplier modules, with an active area of 40 cm x 50 cm each. We optimized the gas flow inside the gas electron multiplier module volume, using the COMSOL physics simulator framework; the COMSOL-based analysis includes the design of the inlet and outlet pipes and the maximization of the uniformity of the gas flow. We have defined the procedures for the assembling of the gas electron multiplier modules and designed a mechanical system (TENDIGEM) that will be used to stretch the GEM foils at the proper tension (few kg/cm); the TENDIGEM is based on the original design developed at LNF.

Published

2014

2. OPTIMIZATION OF THE GAS FLOW IN A GEM CHAMBER AND DEVELOPMENT OF THE GEM FOIL STRETCHER

Author

Maria Concetta Sutera, E. Cisbani, F. Mammoliti, V. Bellini, F. Librizzi, F. Noto, and Smet Valerie de

Subjects

Materials science, business.industry, Tension (physics), Nuclear engineering, Flow (psychology), gas electron multiplier foil, TENDIGEM, fluid dynamics, Modular design, simulation, GEM foil, Gas Electron Multiplier foil, Fluid dynamics, Upgrade, SBS tracker, Nuclear Energy and Engineering, Volume (thermodynamics), Gas electron multiplier, lcsh:QC770-798, lcsh:Nuclear and particle physics. Atomic energy. Radioactivity, Safety, Risk, Reliability and Quality, business, FOIL method

Abstract

The gas electron multiplier technology has been proven to tolerate rat e larger than 50 MHz/cm2 without noticeable aging and to provide sub resolution on working chambers up to 45 cm x 45 cm. A new gas electron multiplier-based tracker is under development for the Hall A upgrade at Jefferson Lab. The chambers of the tracker have been designed in a modular way: each chamber consists of 3 adjacent gas electron multiplier modules, with an active area of 40 cm x 50 cm each. We optimized the gas flow inside the gas electron multiplier module volume, using the COMSOL physics simulator framework; the COMSOL-based analysis includes the design of the inlet and outlet pipes and the maximization of the uniformity of the gas flow. We have defined the procedures for the assembling of the gas electron multiplier modules and designed a mechanical system (TENDIGEM) that will be used to stretch the GEM foils at the proper tension (few kg/cm); the TENDIGEM is based on the original design developed at LNF.