Flexible scenario for heavy element research

TL;DR

This paper presents a flexible software system for a new analog spectrometer that enhances superheavy element detection by real-time background suppression using correlation detection of recoil-alpha events.

Contribution

It introduces a novel software package with flexible real-time algorithms for background suppression in superheavy element research using a new analog spectrometer.

Findings

Effective background suppression achieved in real-time

Enhanced detection capabilities for superheavy elements

Successful implementation on DGFRS-2 setup

Abstract

Detection system and software package coded in Builder C ++ are developed for the new analog spectrometer of the DGFRS-2 setup installed on the new DC-280 cyclotron. This software allows providing data acquisition using a 48x128 DSSSD (Double Side Silicon Strip Detector) detector and a multi-wire gaseous detector. The main feature of this software package is the use of flexible real-time algorithms to provide deep suppression of the background in reactions for the synthesis of superheavy elements, using the detection of correlations ER-{\alpha} (Recoil-alpha particle). The block-diagram of analog spectrometer is presented.