International audienceThis paper reports on a numerical feasibility study of a passive neutron coincidence counting system for radioactive waste drums with plastic scintillators. The motivation is to replace 3 He gas counters generally used for this type of measurement. Indeed, plastic scintillators present several advantages for the measurement of neutron coincidences such as a good efficiency for detecting fast neutrons, short detection time, and low cost comparatively to 3 He. However, unlike 3 He counters, their high sensitivity to gamma rays and cross talk constitutes a drawback as parasite random and true coincidences are detected together with the useful signal of plutonium. Simulations are performed using the Monte Carlo transport c...
JRC has developed the SNMC: an advanced neutron multiplicity counter for the verification of inhomog...
We have developed a passive neutron counter for the measurement of plutonium in 200-L drums of scrap...
Several non-destructive assays techniques have been developed for the measurement of fissile materia...
International audienceThis paper reports on a numerical feasibility study of a passive neutron coinc...
International audienceThis paper reports a feasibility study, performed by numerical simulation with...
International audienceThis work addresses the use of plastic scintillators as an alternative to 3He ...
Within the EC-funded CHANCE project several non-destructive techniques are being considered for the ...
A unique detector design incorporating a {sup 6}Li-based capture medium, ZnS scintillator, and wavel...
The use of liquid scintillation detectors provides the possibility to acquire information about both...
In the framework of the radioactive waste drum characterization using neutron coincidence counting, ...
Neutron coincidence counting is an established, non-destructive method for the qualitative and quant...
For the termination of nuclear safeguards and transfers to waste storage, the verification of the pl...
JRC has developed the SNMC: an advanced neutron multiplicity counter for the verification of inhomog...
JRC has developed the SNMC: an advanced neutron multiplicity counter for the verification of inhomog...
We have developed a passive neutron counter for the measurement of plutonium in 200-L drums of scrap...
Several non-destructive assays techniques have been developed for the measurement of fissile materia...
International audienceThis paper reports on a numerical feasibility study of a passive neutron coinc...
International audienceThis paper reports a feasibility study, performed by numerical simulation with...
International audienceThis work addresses the use of plastic scintillators as an alternative to 3He ...
Within the EC-funded CHANCE project several non-destructive techniques are being considered for the ...
A unique detector design incorporating a {sup 6}Li-based capture medium, ZnS scintillator, and wavel...
The use of liquid scintillation detectors provides the possibility to acquire information about both...
In the framework of the radioactive waste drum characterization using neutron coincidence counting, ...
Neutron coincidence counting is an established, non-destructive method for the qualitative and quant...
For the termination of nuclear safeguards and transfers to waste storage, the verification of the pl...
JRC has developed the SNMC: an advanced neutron multiplicity counter for the verification of inhomog...
JRC has developed the SNMC: an advanced neutron multiplicity counter for the verification of inhomog...
We have developed a passive neutron counter for the measurement of plutonium in 200-L drums of scrap...
Several non-destructive assays techniques have been developed for the measurement of fissile materia...