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The development of highly pixelated fast Medipix/Timepix readout enabled a large number of novel hybrid detectors, where incoming particles/photons are initially converted into a measureable charge, typically exceeding 1000 electrons. Among those possible converters are Microchannel plate (MCP) electron multipliers, which provide some unique capabilities when combined with bare Medipix/Timepix readout. Fast event multiplication with ~10–20 ps time jitter, localized within the MCP pore (typically 5–10 μm in diameter) and low dark currents make MCP/Medipix/Timepix hybrid devices very attractive for the high spatial and temporal resolution detection of low energy photons (soft X-ray, UV and visible), alpha particles, ions and also neutrons. In this review we present a brief overview of the capabilities of MCP/Medipix/Timepix detectors and show the results of experiments conducted with such hybrid detectors in various applications including neutron imaging, astronomy, mass spectroscopy and others.
Tremsin et al. (Tue,) studied this question.