JRC has developed the SNMC: an advanced neutron multiplicity counter for the verification of inhomogeneous plutonium samples, such as scrap material in MOX fuel fabrication plants. The innovative features of this counter with respect to existing ones rely on two aspects: (i) an optimised design using a large number of Monte Carlo calculations in order to select the most appropriate materials, geometry and detector disposition for maximum efficiency and (ii) the development of a novel electronic based on DSP (digital signal processing) in order to reduce the dead time. The paper will briefly recall the design process, the electronic development, the construction and assembly of the counter. Then the results of the first experimental tests wi...
Neutron coincident counting is a useful tool, both to determine the nature of a neutron source and t...
This document is intended to serve as a comprehensive applications guide to passive neutron multipli...
This report documents work performed by Idaho National Laboratory and the University of Michigan in ...
JRC has developed the SNMC: an advanced neutron multiplicity counter for the verification of inhomog...
A new neutron multiplicity counter has been designed, fabricated, characterized, and installed for u...
Thermal neutron multiplicity counters (TNMCs) assay {sup 240}Pu-effective mass, isolating spontaneou...
Many safeguards measurement systems used at nuclear facilities, both domestically and internationall...
In the paat several years, several facilities have identi-fied a need for a large multiplicity count...
We have developed a passive neutron counter for the measurement of plutonium in 200-L drums of scrap...
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...
An advanced passive neutron counter, the high-efficiency neutron counter (HENC), has been used to me...
A unique detector design incorporating a {sup 6}Li-based capture medium, ZnS scintillator, and wavel...
During an advanced IAEA inspector training course given at Los Alamos in November, 1997, the opportu...
A paper describing the conceptual idea of using passive neutron assay for the verification of large ...
Neutron coincident counting is a useful tool, both to determine the nature of a neutron source and t...
This document is intended to serve as a comprehensive applications guide to passive neutron multipli...
This report documents work performed by Idaho National Laboratory and the University of Michigan in ...
JRC has developed the SNMC: an advanced neutron multiplicity counter for the verification of inhomog...
A new neutron multiplicity counter has been designed, fabricated, characterized, and installed for u...
Thermal neutron multiplicity counters (TNMCs) assay {sup 240}Pu-effective mass, isolating spontaneou...
Many safeguards measurement systems used at nuclear facilities, both domestically and internationall...
In the paat several years, several facilities have identi-fied a need for a large multiplicity count...
We have developed a passive neutron counter for the measurement of plutonium in 200-L drums of scrap...
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...
An advanced passive neutron counter, the high-efficiency neutron counter (HENC), has been used to me...
A unique detector design incorporating a {sup 6}Li-based capture medium, ZnS scintillator, and wavel...
During an advanced IAEA inspector training course given at Los Alamos in November, 1997, the opportu...
A paper describing the conceptual idea of using passive neutron assay for the verification of large ...
Neutron coincident counting is a useful tool, both to determine the nature of a neutron source and t...
This document is intended to serve as a comprehensive applications guide to passive neutron multipli...
This report documents work performed by Idaho National Laboratory and the University of Michigan in ...