Cross strip anode imaging readouts for microchannel plate detectors

We have developed a novel microchannel plate readout scheme, the cross strip anode. The cross strip anode has a coarse (0.5 mm) multilayer metal and ceramic cross strip pattern that encodes event positions by direct sensing of the charge on each strip and subsequent determination of the charge cloud centroid for each event. Event position encoding is accomplished with chip level preamplifiers on the anode, subsequent analog to digital conversion of individual strip charge values and a software centroid determination. We find that the spatial resolution (<7 /spl mu/m) is sufficient to resolve 12 /spl mu/m microchannel plate pores. The cross strip anode can achieve this resolution while using low MCP gain (5/spl times/10/sup 6/), thus increasing the local counting rate capacity and overall lifetime of the microchannel plate detector system. The image linearity is good enough (<5 /spl mu/m) to enable distortions in the microchannel plate hexagonal boundaries to be seen. We also discuss plans for custom chip electronics development so that encoding may be accomplished at photon counting rates >1 MHz and with low power consumption (/spl sim/2 W).