Title :
Optimum characteristic and structural design of PWB radiation detector considering gas amplification reaction
Author :
Ota, Kohei ; Oono, Motonori ; Motomura, Tomohisa
Author_Institution :
R&D Center, Dai Nippon Printing Co., Ltd., Fujimino, Japan
Abstract :
Radiation detector to act as radiation sensor is made by printed circuit board technology for realizing the micro pixel patterns on the large-sized substrate. To improve the radiation sensitively of PWB sensor, it is necessary to enhance the electric discharge properties around pixels under high-voltage condition. We therefore studied the insulating properties of PWB dielectric material experimentally and evaluated PWB sensor structures utilizing simulation technology with the gas amplification process of a recoil electron and read-out signal on sensor electrode. As these results, we could decide about a design and development guideline for a PWB radiation detector products.
Keywords :
amplification; dielectric materials; discharges (electric); insulating materials; microsensors; nuclear electronics; particle detectors; printed circuits; readout electronics; semiconductor counters; PWB dielectric; PWB radiation detector products; PWB sensor structure; electric discharge properties enhancement; gas amplification process; gas amplification reaction; high-voltage condition; insulating property; micro pixel pattern; optimum characteristic; printed circuit board technology; radiation sensitively; radiation sensor; readout signal; recoil electron signal; sensor electrode; simulation technology; structural design; Anodes; Copper; Dielectric constant; Discharges (electric); Electric fields; Radiation detectors; Discharge; Gas Amplification; PWB; Radiation; Simulation;
Conference_Titel :
Electronics Packaging and iMAPS All Asia Conference (ICEP-IACC), 2015 International Conference on
Conference_Location :
Kyoto
Print_ISBN :
978-4-9040-9012-1
DOI :
10.1109/ICEP-IAAC.2015.7111106
