Study of the time characteristic of NArCoS detection system

The NarCoS (Neutron Array for Correlation Studies) array is designed for simultaneous detection and analysis of neutrons and charged particles, particularly in the context of heavy ion collisions involving neutron-rich nuclei. This type of detection plays a crucial role in studying reaction mechanisms and exploring the spectroscopy of nuclear states where neutron emission is a key characteristic. NarCoS is a compact, modular, and segmented apparatus constructed with EJ276G plastic scintillators, known for their exceptional neutron detection capabilities. Its design consists of elementary detection cells measuring 3 cm × 3 cm × 3 cm, which are optically coupled with Silicon PhotoMultipliers (SiPMs). The array provides a high neutron detection efficiency along with precise angular and energy resolution. Energy measurements are derived from the time of flight, making excellent timing performance and resolution essential. In this contribution, we present a comprehensive study of the timing characteristics of the detection cells and the associated electronics.