How the GaGe Digitizer was used: The GaGe digitizer played a critical role in capturing high-quality decay curves by providing high sampling rates and 16-bit resolution. This capability was essential for obtaining precise ring-down time measurements, which are crucial for determining the VDF of plasma species.
How the GaGe Digitizer was used: The GaGe Express Razor CompuScope 16-bit 200 MS/s digitizer was integrated into the Oregon State University TRIGA® Reactor’s NDP facility. This high-speed digitizer enabled advanced digital signal processing, including rise-time pulse shape analysis and coincidence measurements. It digitized output signals, allowing for detailed pulse- by-pulse analysis to differentiate particle interactions and improve detection accuracy.
How the GaGe Digitizer was used: To address these challenges, the paper introduces a digital ASIC array system capable of providing digitized pre-amplifier signal waveforms. This system enables better characterization of charge transportation and induction details, leading to enhanced spectroscopic performance and event reconstruction.
How the GaGe Digitizer was used: The GaGe digitizer, part of the digital ASIC system, captures detailed pre-amplifier signal waveforms for each pixel. This digital approach allows for better noise analysis, non-linearity correction, and event classification by providing more comprehensive data compared to analog systems.