Abstract
The distributed beam-loss monitor based on the Cherenkov radiation in an optical fiber installed on the e–e+ Injection Complex at the Budker Institute of Nuclear Physics is considered. Monitor parameters are optimized based on a numerical model and experimental data. For a 45-m-long quartz fiber (with a core diameter of 550 μm) and a microchannel plate photomultiplier as a signal detector, a spatial resolution of less than 1 m is achieved. Software for processing photodetector signals, which allows the real-time monitoring of the distribution of beam loss along the entire beam line, is developed.
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