Your search keyword '"J.-W. Ko"' showing total 2 results

1. Study of eco-friendly gas mixtures for SHiP RPCs

Author

Yunhui Jo, Jong-Kwan Woo, Kisuk Choi, J.-W. Ko, K. S. Lee, J. Y. Sohn, Kang Young Lee, Y. G. Kim, C. S. Yoon, B. D. Park, Seon-Won Kim, and Moon-Sik Kang

Subjects

Resistive touchscreen, Freon, Large Hadron Collider, Nuclear engineering, Detector, General Physics and Astronomy, Environmental science, High voltage, Environmentally friendly, Compact Muon Solenoid, Global-warming potential

Abstract

Over the past few decades, tetrafluoroethane (TFE, R134a Freon)-based gases have been widely used in the operation of phenolic resistive plate chambers (RPCs) in many high-energy experiments. However, TFE has a high global warming potential (GWP); therefore, a search for new eco-friendly gases to replace traditional TFE-based ones is now unavoidable. In this research, we present cosmic-ray test results of a prototype RPC for the SHiP (search for hidden particles) experiment using 1.6- and 1.4-mm-thick RPC electrodes containing mixtures of various gases, including 1,3,3,3-tetrafluoropropene (HFO1234ze), CO2, iC4H10 and SF6. We compare the performance data gathered with these new gas mixtures with those gathered with a traditional TFE-based gas used for RPCs in compact muon solenoid (CMS) and a toroidal LHC apparatus (ATLAS) experiments. The addition of CO2 to the HFO1234ze-based gas was found to be fairly effective in reducing the working-point high voltage (HVWP) for RPC operation. The results of our experiments lead us to the conclusion that adding 40% CO2 or less, when combined with HFO1234ze-based gas, is conducive to reliable detector performance for SHiP single-gap phenolic RPCs.

Published

2021

2. R&D on Trigger Resistive Plate Chambers for the Search for Hidden Particles Experiment

Author

Chun Sil Yoon, K. S. Lee, B. D. Park, J.-W. Ko, Moon-Sik Kang, Seon-Won Kim, Su Eun Park, Yunhui Jo, Kisuk Choi, J. Y. Sohn, Kang Young Lee, Y. G. Kim, and Jong-Kwan Woo

Subjects

010302 applied physics, Physics, Resistive touchscreen, Particle physics, Muon, Physics::Instrumentation and Detectors, Detector, General Physics and Astronomy, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Charged particle, Noise rate, Tau neutrino, 0103 physical sciences, High Energy Physics::Experiment, Cosmic muons, 0210 nano-technology, Image resolution

Abstract

The main goals of the Search for Hidden Particles (SHiP) experiment are to observe hidden particles and to run a high-statistics study of tau neutrino events. Two different types of resistive plate chambers (RPCs) will be used in the future SHiP experiment: one for triggers to select the decayed muons emitted via tau neutrino interactions and one for precision time measurements of charged particles, which are expected from the decays of hidden particles. In the present research, we constructed and tested a prototype RPC module to study the fundamental detector performance of the muon trigger RPCs in the tau neutrino detector of the SHiP experiment. The required detector characteristics, such as the intrinsic noise rate, the time response, and the spatial resolution, were proven through the test of the present prototype detector with cosmic muons.

Published

2020