7.3: A Simulation Study of a Flat Panel Detector Based on Shadow Mask PDP

Abstract: A new type of detector, the shadow mask flat panel detector, is proposed and its characteristics are investigated by the program Garfield. The results reveal how the avalanche process and gain of the detector depend on the voltages applied and the structure. It proves that higher positive anode voltage and lower negative shadow mask voltage can enhance the gain. To ease the limitation of the Paschen breakdown, a new design enabling high gain values by suppressing ion feedback is proposed.

“…We propose a two‐dimensional flat‐panel detector that employs plasma display technology to monitor the spatial distribution of radioactive contamination in large areas. Gas‐filled radiation detectors that employ DC plasma display technology have been reported . To flat‐panel detectors, we applied AC plasma display technologies, such as wall voltage transfer and discharge cell design.…”

“…Gas-filled radiation detectors that employ DC plasma display technology have been reported. 1,2 To flat-panel detectors, we applied AC plasma display technologies, such as wall voltage transfer and discharge cell design.…”

Application of AC plasma display panels to radiation detectors

“…We propose a two‐dimensional flat‐panel detector that employs plasma display technology to monitor the spatial distribution of radioactive contamination in large areas. Gas‐filled radiation detectors that employ DC plasma display technology have been reported . To flat‐panel detectors, we applied AC plasma display technologies, such as wall voltage transfer and discharge cell design.…”

“…Gas-filled radiation detectors that employ DC plasma display technology have been reported. 1,2 To flat-panel detectors, we applied AC plasma display technologies, such as wall voltage transfer and discharge cell design.…”

Application of AC plasma display panels to radiation detectors