Neutron coincident counting is a useful tool, both to determine the nature of a neutron source and to extract parameters like the multiplicity, α-ratio and ultimately the mass of uranium or plutonium . For the latter, well-characterized detectors enable the determination in the order of several grams. The multiplicity analysis also allows determining if an unknown neutron source emits fission neutrons and thus possibly contains special nuclear material. The Ortec Fission Meter is an instrument designed for this purpose, equipped with a highly efficient moderated 3He neutron detector. In order to gain deeper understanding of the measured data and to predict the dependence of the analysis on different parameters like additional shielding, Fra...
In nuclear safeguards, estimation of sample parameters using neutron-based non-destructive assay met...
Thermal neutron multiplicity counters (TNMCs) assay {sup 240}Pu-effective mass, isolating spontaneou...
Fission fragment mass yields and prompt neutron multiplicities are key input parameter into nuclear ...
Neutron coincident counting is a useful tool, both to determine the nature of a neutron source and t...
When applying numerical simulation to physical problems it is important to be able to clearly unders...
In two earlier papers [1], [2] we investigated the possibility of extracting traditional multiplicit...
In this paper we discuss the long-term perspective of the application of numerical modelling to neut...
Many safeguards measurement systems used at nuclear facilities, both domestically and internationall...
The paper is about the improvements and new features related to simulation of neutron multiplicity c...
Neutron multiplicity counting (NMC) techniques are widely used for nuclear materials accountability ...
JRC has developed the SNMC: an advanced neutron multiplicity counter for the verification of inhomog...
Neutron coincidence counting is an established, non-destructive method for the qualitative and quant...
A series of Monte Carlo neutron calculations for a combined gamma/passive neutron coincidence counte...
JRC has developed the SNMC: an advanced neutron multiplicity counter for the verification of inhomog...
Neutron multiplicity counting is a non-destructive assay method for determining the mass of fissile ...
In nuclear safeguards, estimation of sample parameters using neutron-based non-destructive assay met...
Thermal neutron multiplicity counters (TNMCs) assay {sup 240}Pu-effective mass, isolating spontaneou...
Fission fragment mass yields and prompt neutron multiplicities are key input parameter into nuclear ...
Neutron coincident counting is a useful tool, both to determine the nature of a neutron source and t...
When applying numerical simulation to physical problems it is important to be able to clearly unders...
In two earlier papers [1], [2] we investigated the possibility of extracting traditional multiplicit...
In this paper we discuss the long-term perspective of the application of numerical modelling to neut...
Many safeguards measurement systems used at nuclear facilities, both domestically and internationall...
The paper is about the improvements and new features related to simulation of neutron multiplicity c...
Neutron multiplicity counting (NMC) techniques are widely used for nuclear materials accountability ...
JRC has developed the SNMC: an advanced neutron multiplicity counter for the verification of inhomog...
Neutron coincidence counting is an established, non-destructive method for the qualitative and quant...
A series of Monte Carlo neutron calculations for a combined gamma/passive neutron coincidence counte...
JRC has developed the SNMC: an advanced neutron multiplicity counter for the verification of inhomog...
Neutron multiplicity counting is a non-destructive assay method for determining the mass of fissile ...
In nuclear safeguards, estimation of sample parameters using neutron-based non-destructive assay met...
Thermal neutron multiplicity counters (TNMCs) assay {sup 240}Pu-effective mass, isolating spontaneou...
Fission fragment mass yields and prompt neutron multiplicities are key input parameter into nuclear ...