Pulse shape discrimination, to distinguish between neutrons and gamma rays, is a very important classification task in thermonuclear fusion. Gaussian Mixture Models and probabilistic Support Vector Machines have been applied to hundreds of thousands of pulses obtained with a counter based on the NE213 liquid scintillator. The results of the two completely independent mathematical methods are in very good agreement, the maximum discrepancy being of the order of 2%. The achieved classification also shows an excellent value for the figure of merit, a Mahalanobis type of distance, implemented to quantify statistically the separation between the two particle distributions. These two machine learning tools provide also the probability of ea...
Neutron/Gamma pulse shape discrimination (PSD) was measured using stilbene and EJ-299-34 plastic sci...
The JSNS2 (J-PARC Sterile Neutrino Search at the J-PARC Spallation Neutron Source) experiment search...
International audienceWe would like to present here with the eyes of the chemist the most recent dev...
Pulse shape discrimination, to distinguish between neutrons and gamma rays, is a very important clas...
The potential of two Kohonen artificial neural networks (ANNs) - linear vector quantisation (LVQ) an...
Abstract: We demonstrate the use of a convolutional neural network to perform neutron-gamma pulse sh...
The potential of two Kohonen artificial neural networks (ANNs) - linear vector quantisa- tion(LVQ)an...
Poster presented at the 2018 Defence and Security Doctoral Symposium.Pulse Shape Discrimination is t...
International audienceOrganic scintillators are widely used for neutron/gamma detection. Pulse shape...
This dataset provides neutron and gamma-ray pulse signals for pulse shape discrimination experiments...
International audiencePulse shape discrimination algorithms have been commonly implemented on embedd...
In this paper, we investigated the efficiency of several known and new methods of digital pulse shap...
We investigate the performance of Fourier-based neutron/gamma Pulse Shape Discrimination (PSD) algor...
Pulse shape discrimination is investigated using artificial neural networks, namely linear vector qu...
Historically, nuclear science and radiation detection fields of research used Pulse Shape Discrimina...
Neutron/Gamma pulse shape discrimination (PSD) was measured using stilbene and EJ-299-34 plastic sci...
The JSNS2 (J-PARC Sterile Neutrino Search at the J-PARC Spallation Neutron Source) experiment search...
International audienceWe would like to present here with the eyes of the chemist the most recent dev...
Pulse shape discrimination, to distinguish between neutrons and gamma rays, is a very important clas...
The potential of two Kohonen artificial neural networks (ANNs) - linear vector quantisation (LVQ) an...
Abstract: We demonstrate the use of a convolutional neural network to perform neutron-gamma pulse sh...
The potential of two Kohonen artificial neural networks (ANNs) - linear vector quantisa- tion(LVQ)an...
Poster presented at the 2018 Defence and Security Doctoral Symposium.Pulse Shape Discrimination is t...
International audienceOrganic scintillators are widely used for neutron/gamma detection. Pulse shape...
This dataset provides neutron and gamma-ray pulse signals for pulse shape discrimination experiments...
International audiencePulse shape discrimination algorithms have been commonly implemented on embedd...
In this paper, we investigated the efficiency of several known and new methods of digital pulse shap...
We investigate the performance of Fourier-based neutron/gamma Pulse Shape Discrimination (PSD) algor...
Pulse shape discrimination is investigated using artificial neural networks, namely linear vector qu...
Historically, nuclear science and radiation detection fields of research used Pulse Shape Discrimina...
Neutron/Gamma pulse shape discrimination (PSD) was measured using stilbene and EJ-299-34 plastic sci...
The JSNS2 (J-PARC Sterile Neutrino Search at the J-PARC Spallation Neutron Source) experiment search...
International audienceWe would like to present here with the eyes of the chemist the most recent dev...