Title: Development of LAPPDs for LHCb ECAL and other High Rate High Radiation Applications

Problem Being Addressed – Phase II LHCb Electromagnetic Calorimeter (ECAL) upgrade for high luminosity flavor physics program at LHC is projected to overcome limitations of the present ECAL system. Upgraded ECAL modules should be tolerant to a radiation dose of about 1 MGy, capable of timing resolution of about 10 psec and energy resolution of about 10% for 5-100 GeV electrons. The choice for the central part of ECAL is presently thought to be implemented as a sampling calorimeter with dense tungsten-based converter and radiation hard crystal scintillator. Concerning the particular structure type, it was found that the Spaghetti Calorimeter (SPACAL) concept based on GAGG:Ce or YAG:Ce scintillators meets the requirements on radiation hardness. However, the timing resolution for experimental SPACAL modules read out with conventional PMTs is still far from the required goal. How Problem is Being Addressed – We propose to adopt the well-established LAPPD technology for achieving the required timing capability for SPACAL. This will be realized by developing customized radiation hard LAPPD units featuring ALD functionalized large area borosilicate glass MCPs and anode with pixelated readout. These LAPPD units will be integrated into the SPACAL modules to provide 10-20psec timing resolution Commercial Applications – Large Area Picosecond Photo-Detectors (LAPPDs) will enable new techniques in HEP, homeland security (non-proliferation) sensors to screen vehicles and cargo for Special Nuclear Materials (SNMs) and scientific detectors for astrophysics, time-of-flight mass spectrometry and medical imaging products including detectors for positron emission tomography (PET scanning) that are not achievable with conventional small area MCP-PMTs. ECAL Phase II upgrade will require about 50 square meters of detector coverage that translates to about 1,250 LAPPDs. With production volume of more than 1000 devices, the LAPPD price will be conservatively reduced to $27 - $58 per cm2 of active area. Key Words – Large-Area Psec Photodetectors, Pico second Timing, LAPPD, Hermetic packaging, Micro-channel plate, MCP, Atomic layer deposition, ALD, PET, Bi-alkali photocathode. Summary for Members of Congress – Large area ultra-high sensitivity photo-sensors with improved spatial and temporal resolution has been a high risk, high payoff development initially undertaken by a consortium of effort that links the US National Laboratories, multiple universities and now being commercialized by a small business company Incom Inc. The work done under this award, will significantly extend the frontiers for applicability of these large area photodetectors to satisfy the needs for new instrumentation for homeland security (non-proliferation) sensors to screen vehicles and cargo for Special Nuclear Materials (SNMs) and scientific detectors for astrophysics, High Energy Physics, electron microscopy, time-of-flight mass spectrometry, molecular and atomic collision studies, and fluorescence imaging applications in biotechnology and medical imaging products include detectors for positron emission tomography (PET scanning).