Add to ORKGA new method for pulse analysis of driftless-gas proportional scintillation counters (GPSCs) is presented. With this method the requirement for additional analog or digital signal time-analysis and pulse-amplitude correction currently used is eliminated. In contrast to conventional- and driftless-GPSCs that have always relied on long shaping-time constants (several [mu]s), the use of very short linear amplifier shaping-time constants (~50 ns) enables pulse shapes to closely represent the scintillation light-pulse time-profile. Since the number of detected photons in the photosensor increases continuously with depth due to the increase in the solid angle subtended by the photosensor, a maximum is achieved when the primary electron cloud is c...
Modern spectrometers are currently developed by using digital pulse processing (DPP) systems, showin...
The pulse pile-up effect can significantly degrade the spectroscopic performance of scintillation ra...
The pulse pile-up effect can significantly degrade the spectroscopic performance of scintillation ra...
A driftless gas proportional scintillation counter (GPSC) of simple design, using digital pulse-sign...
Performance characteristics are evaluated for a xenon driftless gas proportional scintillation count...
Performance characteristics are evaluated for a xenon driftless gas proportional scintillation count...
The use of short shaping time-constants (50 ns) followed by digital sampling of gas proportional sci...
A review on gas proportional scintillation counters (GPSCs) is presented. Recent achievements toward...
The gas proportional scintillation counter/microstrip gas chamber (GPSC/MSGC) hybrid detector for X-...
A P10-filled microstrip gas chamber (MSGC) is used to replace the conventional photomultiplier tube ...
Results for the energy resolution of a uniform-field gas proportional-scintillation counter are pres...
Modern spectrometers are currently developed by using digital pulse processing (DPP) systems, showin...
Digital pulse processing is a signal processing technique in which detector (preamplifier output) si...
Proportional scintillation counters (PSCs), both single- and dual-phase, can measure the scintillati...
Proportional scintillation counters (PSCs), both single- and dual-phase, can measure the scintillati...
Modern spectrometers are currently developed by using digital pulse processing (DPP) systems, showin...
The pulse pile-up effect can significantly degrade the spectroscopic performance of scintillation ra...
The pulse pile-up effect can significantly degrade the spectroscopic performance of scintillation ra...
A driftless gas proportional scintillation counter (GPSC) of simple design, using digital pulse-sign...
Performance characteristics are evaluated for a xenon driftless gas proportional scintillation count...
Performance characteristics are evaluated for a xenon driftless gas proportional scintillation count...
The use of short shaping time-constants (50 ns) followed by digital sampling of gas proportional sci...
A review on gas proportional scintillation counters (GPSCs) is presented. Recent achievements toward...
The gas proportional scintillation counter/microstrip gas chamber (GPSC/MSGC) hybrid detector for X-...
A P10-filled microstrip gas chamber (MSGC) is used to replace the conventional photomultiplier tube ...
Results for the energy resolution of a uniform-field gas proportional-scintillation counter are pres...
Modern spectrometers are currently developed by using digital pulse processing (DPP) systems, showin...
Digital pulse processing is a signal processing technique in which detector (preamplifier output) si...
Proportional scintillation counters (PSCs), both single- and dual-phase, can measure the scintillati...
Proportional scintillation counters (PSCs), both single- and dual-phase, can measure the scintillati...
Modern spectrometers are currently developed by using digital pulse processing (DPP) systems, showin...
The pulse pile-up effect can significantly degrade the spectroscopic performance of scintillation ra...
The pulse pile-up effect can significantly degrade the spectroscopic performance of scintillation ra...