A new reasonable scenario to search for ER-alpha energy-time-position correlated sequences in a real time mode

TL;DR

This paper introduces a real-time algorithm and C++ code for detecting ER-alpha correlated sequences using a large-area silicon detector, enhancing the search for superheavy nuclei in nuclear reactions.

Contribution

It presents a novel real-time data processing approach and software implementation for identifying ER-alpha sequences in heavy ion fusion experiments.

Findings

Successful development and testing of the real-time algorithm and code.

Application of new CAMAC modules for long-term experiments.

Enhanced capability to detect ER-alpha and alpha-alpha chains.

Abstract

A new real-time PC based algorithm and a compact C++ code to operate in a real-time mode with a 48x128 strip double side position sensitive large area silicon radiation detector Micron Semiconductors (UK) are developed and tested. Namely with this new approach it has become possible to provide the quick extraction of EVR-alpha correlated sequences in heavy ion induced complete fusion nuclear reactions. Specific attention is paid to the application of new CAMAC 4 M modules for charge particle position measurement during long- term experiments aimed to the synthesis of new superheavy nuclei. Some attention is paid to the different (combined) algorithm scenario to search for ER-alpha and alpha-alpha chains.