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The method of events separation with overlapping signals
Author(s) -
D. V. Shoukavy,
D. N. Grigoriev,
D. S. Vasileuskaya
Publication year - 2021
Publication title -
vescì nacyânalʹnaj akadèmìì navuk belarusì. seryâ fìzìka-matèmatyčnyh navuk
Language(s) - English
Resource type - Journals
eISSN - 2524-2415
pISSN - 1561-2430
DOI - 10.29235/1561-2430-2021-57-4-470-478
Subject(s) - superposition principle , signal (programming language) , physics , waveform , nucleus , electron , pulse (music) , computational physics , full width at half maximum , nuclear physics , atomic physics , algorithm , optics , computer science , quantum mechanics , voltage , detector , biology , programming language , microbiology and biotechnology
In this paper, we propose a method for the rejection of the background from the superposition of signals from different, almost simultaneously occurring events in the calorimeter for the COMET experiment. The basic idea is to use the chi-squared distribution obtained from fitting the recorded shape of the signal with an average waveform. The elaborated method is applied for the reconstruction of events with overlapping signals from the electron and radiative capture of neutrons by the 175 Lu nucleus, as well as overlapping signals from two electrons born as a result of the decay of muons in the bound state with an aluminum nucleus with impulses causing a “false” signal of the μ – e conversion. The method showed a good ability to separate events, meanwhile, the separation time is significantly less than the FWHM of the pulse shape.

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