Capacitively Coupled LAPPDs with 2D Pixelated Readout Planes for Time of Flight and Ring Imaging Cherenkov Applications
2021 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC)(2021)
Physics Department
Abstract
Large Area Picosecond Photon Detectors (LAPPDs) are micro-channel plate based photosensors featuring hundreds of square centimeters of sensitive area in a single package and capable of providing timing resolution on the order of 50 ps for single photon detection. However, LAPPDs currently do not exist in finely pixelated 2D readout configurations which, in addition to high-resolution timing, would also provide high spatial resolution required for Ring Imaging CHerenkov (RICH) detectors. One of the recent LAPPD models (Gen II) provides the opportunity to overcome the lack of pixellation by coupling an external readout to the sealed detector itself. The readout plane in this case is a simple printed circuit board (PCB) that can be laid out in a custom application-specific way for 1D or 2D sensitive area pixellation. This allows for a much shorter readout-plane prototyping cycle and provides unprecedented flexibility in choosing an appropriate segmentation that can be optimized for any particular detector need in terms of pad size, orientation, and shape. We fully exploit this feature by designing and testing a variety of readout PCBs with conventional square pads and interleaved anode designs. Data acquired in the lab using a laser system to probe the response of several interleaved and standard pixelated patterns are presented as well as results from a beam test.
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Key words
sensitive area,single package,timing resolution,single photon detection,LAPPDs,finely pixelated 2D readout configurations,high-resolution timing,high spatial resolution,recent LAPPD models,Gen II,external readout,sealed detector,readout plane,simple printed circuit board,custom application-specific way,shorter readout-plane prototyping cycle,particular detector need,readout PCBs,conventional square pads,interleaved pixelated patterns,standard pixelated patterns,time of flight,Ring Imaging cherenkov applications,Area Picosecond Photon Detectors,microchannel plate based photosensors,square centimeters
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