Abstract
A detailed study of the design parameters for nanosecond pulse radiolysis using a 40 MeV linear accelerator is presented. The factors involved in optimizing an optical system consisting of a high-intensity light source, multi-pass detection cell and monochromator are considered in detail and a practical design is given. All aspects of the electronic detection system are discussed and practical circuits for 1P28-type photomultiplier tubes are shown to be linear within ±10 per cent to over 6 mA output current. A unique triggering system is described which permits the display of complete pulse radiolysis information (light intensity and zero signal levels as well as transient signal) on a single photograph.
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