Scintillation detectors based on CsI(Tl) crystals are widely used in nuclear physics, especially in the field of gamma-ray spectrometry and/or fast light charged particles. Large CsI(Tl) crystals like ours with a volume of ~370 cm3, are used in many collaborations [1-3].
GADAST (GAmma-ray Detector Around the Secondary Target) is a compact detector array, that is a part...
The measurement of the lifetime of exotic nuclei requires high-resolution gamma energy detection and precise Doppler correction of the energy spectrum.
According to the Doppler shift relation, the uncertainty in the reconstructed energy is influenced by the velocity (β) and emission angle (α). While thin targets can reduce the uncertainties in both these quantities, thick targets are required...
The direct measurements of the antimatter components in cosmic rays provide a crucial information
on the mechanisms responsible for their acceleration/propagation and represent a powerful tool for
the indirect search of dark matter. At present, charge sign discrimination has been performed by the
use of magnetic spectrometers, which are not suited to extend the current measurements at...
High-precision time measurements are crucial for both high-energy physics experiments and advanced medical imaging applications, such as Positron Emission Tomography (PET). Future detector systems require readout electronics that combine sub-10 ps timing resolution with scalability, compactness, and efficient multi-channel integration.
The CAEN A5203 module, part of the FERS 5200 system,...
