An electron-optical system of the photomultiplier with subnanosecond time resolution
A. S. Dolotov, A. B. Kostin
Research Institute of Pulse Technique, Moscow, Russia
V. F. Tregubov
Close stock company "Solver", St.-Petersburg, Russia
Results are presented for computational modeling an electron-optical system of the photomultiplier (PM) having time resolution of 0.5 ns at linear anode current of 0.1 A. Calculations are given for a cathode chamber, intermediate stages and anode unit of the photomultiplier. Calculations were performed with the help of the TAU application package. The developed cathode chamber assures a good focusing of photoelectrons on the first emitter. The configuration of the electron-optical system of the intermediate multiplying stage has a low spread of electron transit times and good focusing properties. The PM anode unit construction assures minimum waveform distortion of output pulses directed into the recording devices and a maximum linearity limit of the pulse light characteristic. Influence of a spatial charge in the anode unit on linear output current restriction has been discussed.
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