Smart real time system for heavy element research within new FLNR(JINR) Super Heavy Element Factory project: new approaches, algorithms, implementation
Yu.S.Tsyganov, A.N.Polyakov, V.A.Voinov, L.Schlattauer

TL;DR
This paper introduces new algorithms and real-time detection methods for superheavy element research at FLNR(JINR), enhancing the detection of rare nuclear events using advanced correlation graphs and active detection techniques.
Contribution
It presents novel algorithms and mathematical models for real-time detection of rare superheavy element events, improving upon existing methods at the Dubna Gas Filled Recoil Separator.
Findings
Enhanced detection of ultra-rare alpha decays
Real-time correlation graph-based triggering system
More exhaustive detection procedures
Abstract
The Dubna Gas Filled Recoil Separator is the most advanced facility currently in use in the field of research of superheavy nuclei. Definitely, the DGFRS detection system and method of active correlations have played a significant role in these discoveries. Author defines abstract mathematical objects, like correlation graph and incoming event matrixes of a different nature in order to construct a simple procedure for detecting rare events, yet more exhaustive compared to the present one, using real time detection mode. In this case one can use any of correlation graph links to trigger cyclotron beam stopper to provide background free conditions to search for ultra rare alpha decays. Schematics of these algorithms are presented.
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Taxonomy
TopicsNuclear Physics and Applications · Nuclear physics research studies · Radiation Detection and Scintillator Technologies
