Use of flat panel microchannel photomultipliers in sampling calorimeters with timing

The invention claimed is: 1. A detector comprising: a slab of radiation-creating material; and a photodetector, the photodetector comprising: a photocathode; at least one microchannel plate; and an anode, the anode comprising: a dielectric base plate; an electrically conductive coating on the top surface of the dielectric base plate, wherein the coating forms an anode surface that provides a DC electrical ground; and a bottom anode pattern comprising non-shorted, electrically conductive areas; wherein the photodetector is sealed to form a vacuum volume having a pressure below ambient pressure and further wherein the photocathode, the at least one microchannel plate and at least a portion of the electrically conductive coating are inside the vacuum volume and the bottom anode pattern is outside the vacuum volume. 2. The detector of claim 1 , wherein the non-shorted, electrically conductive areas comprise a plurality of parallel, non-shorted, electrically conductive strips. 3. The detector of claim 2 , further comprising electronic circuitry for reading out signals from the parallel, non-shorted electrically conductive strips. 4. The detector of claim 2 , wherein the bottom anode pattern is on the bottom surface of the dielectric base plate. 5. The detector of claim 2 , wherein the bottom anode pattern is on a printed circuit board in contact with the bottom surface of the dielectric base plate. 6. The detector of claim 5 , further comprising electronic circuitry for reading out signals from the parallel, non-shorted electrically conductive strips. 7. The detector of claim 1 , wherein the electrically conductive coating consists of a single electrically conductive strip on the top surface of the dielectric base plate. 8. The detector of claim 1 , wherein the wherein the electrically conductive coating comprises a plurality of electrically conducting strips on the top surface of the dielectric base plate. 9. The detector of claim 1 , further comprising electronic circuitry for reading out signals from the non-shorted, electrically conductive areas. 10. The detector of claim 1 , wherein the photodetector further comprises a sidewall frame between the at least one microchannel plate and the top surface of the dielectric base plate, and further wherein the electrically conductive coating on the top surface of the dielectric base plate forms a continuous seal between the sidewall frame and the dielectric base plate. 11. The detector of claim 10 , wherein the electrically conductive coating extends beyond the seal between the sidewall frame and the dielectric base plate and outside of the vacuum volume. 12. The detector of claim 1 , wherein the bottom anode pattern is on the bottom surface of the dielectric base plate. 13. The detector of claim 1 , wherein the bottom anode pattern is on a printed circuit board in contact with the bottom surface of the dielectric base plate. 14. The detector of claim 13 , further comprising electronic circuitry for reading out signals from the non-shorted, electrically conductive areas.