Luo, X. L.Modamio, V.Nyberg, J.Valiente-Dobon, J. J.Nishada, Q.de Angelis, G.Agramunt, J.2024-11-072024-11-0720180168-90021872-9576https://doi.org/10.1016/j.nima.2018.03.078https://hdl.handle.net/11480/16564The issue of pulse pile-up is frequently encountered in nuclear experiments involving high counting rates, which will distort the pulse shapes and the energy spectra. A digital method of off-line processing of pile-up pulses is presented. The pile-up pulses were firstly identified by detecting the downward-going zero-crossings in the first-order derivative of the original signal, and then the constituent pulses were reconstructed based on comparing the pile-up pulse with four models that are generated by combining pairs of neutron and.. standard pulses together with a controllable time interval. The accuracy of this method in resolving the pile-up events was investigated as a function of the time interval between two pulses constituting a pile-up event. The obtained results show that the method is capable of disentangling two pulses with a time interval among them down to 20 ns, as well as classifying them as neutrons or gamma rays. Furthermore, the error of reconstructing pile-up pulses could be kept below 6% when successive peaks were separated by more than 50 ns. By applying the method in a high counting rate of pile-up events measurement of the NEutron Detector Array (NEDA), it was empirically found that this method can reconstruct the pile-up pulses and perform neutron-gamma discrimination quite accurately. It can also significantly correct the distorted pulse height spectrum due to pile-up events.eninfo:eu-repo/semantics/openAccessPile-upDigitalFirst-order derivativeNeutron-gamma discriminationLiquid scintillatorPulse pile-up identification and reconstruction for liquid scintillator based neutron detectorsArticle897596510.1016/j.nima.2018.03.0782-s2.0-85046627341Q1WOS:000433206800010Q2