Author:
Shin S.,Aviles M.,Clarke S.,Cwik S.,Foley M.,Hamel C.,Lyashenko A.,Mensah D.,Minot M.,Popecki M.,Stochaj M.
Abstract
Abstract
We present advances made in the Large Area Picosecond Photodetector (LAPPD), an 8" × 8" microchannel plate photomultiplier tube (MCP-PMT), since pilot production was initiated at Incom, Inc. in 2018. The Gen-I LAPPD utilizes a stripline anode for direct charge readout. The novel Gen-II LAPPD employs an internal resistive thin-film which capacitively couples to a customizable external signal readout board, streamlining production and increasing customer flexibility. The Gen-II LAPPD, with an active area of 373 cm2, is capable of high single photoelectron (PE) gain of ∼107, low dark rates (∼1 kHz/cm2), single PE (SPE) timing resolution of ∼65 ps, and 𝒪(mm) position resolution. Coupled with a UV-grade fused silica window, the LAPPD features a high quantum efficiency (QE) bialkali photocathode of >30% at 365 nm with spectral response down to ∼165 nm. The LAPPD is an excellent candidate for electromagnetic calorimeter (ECAL) timing layers, photon-based neutrino detectors, high energy collider experiments, medical imaging systems, and nuclear non-proliferation applications.
Reference22 articles.
1. Snowmass 2021 White Paper: Electron Ion Collider for High Energy Physics;Abdul Khalek,2022
2. Capacitively Coupled LAPPDs with 2D Pixelated Readout Planes for Time of Flight and Ring Imaging Cherenkov Applications;Kiselev,2021
3. Development of an MCP-Based Timing Layer for the LHCb ECAL Upgrade-2;LHCb ECAL Upgrade-2 RD Group Collaboration;Instruments,2022
4. Deep Underground Neutrino Experiment (DUNE) Near Detector Conceptual Design Report;DUNE Collaboration;Instruments,2021
5. Accelerator Neutrino Neutron Interaction Experiment (ANNIE): Preliminary Results and Physics Phase Proposal;ANNIE Collaboration,2017