Self-Indication Neutron Resonance Densitometry (SINRD) is a passive non-destructive method that is being investigated to quantify the 239Pu content in a spent fuel assembly. The technique relies on the energy dependence of total cross sections for neutron induced reaction. The cross sections show resonance structures that can be used to quantify the presence of materials in objects, e.g. the total cross-section of 239Pu shows a strong resonance close to 0.3 eV. This resonance will cause a reduction of the number of neutrons emitted from spent fuel when 239Pu is present. Hence such a reduction can be used to quantify the amount of 239Pu present in the fuel. A neutron detector with a high sensitivity to neutrons in this energy region is used ...
The Next Generation Safeguard Initiative (NGSI) of the U.S Department of Energy is supporting a mult...
Recent attention to nuclear safeguards has stepped up the need for additional non proliferation safe...
In order to improve the prediction of heavy actinide concentration in reactor fuel elements and to s...
Self-Indication Neutron Resonance Densitometry (SINRD) is a passive non-destructive method that is b...
Self-interrogation neutron resonance densitometry (SINRD) is a non-destructive analysis technique th...
Self-interrogation neutron resonance densitometry (SINRD) is a non-destructive analysis technique th...
The verification of spent fuel assemblies is among the activities conducted during a safeguards insp...
The Self-Interrogation Neutron Resonance Densitometry (SINRD) is a passive non-destructive assay (ND...
The safeguards verification of spent nuclear fuel is one of the major concern for the safeguards com...
ii There has been a strong international interest in using pyroprocessing to close the fast nuclear ...
The development of non-destructive assay (NDA) capabilities to directly measure the fissile content ...
The integrity test applicable to TRU fuel containing MA with high radioactivity and high decay heat ...
Neutron-induced reactions can be used to study the properties of nuclear materials of interest in th...
Neutrons can be used as a tool to study materials and objects. Cross sections of neutron induced rea...
Many different nondestructive analysis techniques are currently being investigated as a part of the ...
The Next Generation Safeguard Initiative (NGSI) of the U.S Department of Energy is supporting a mult...
Recent attention to nuclear safeguards has stepped up the need for additional non proliferation safe...
In order to improve the prediction of heavy actinide concentration in reactor fuel elements and to s...
Self-Indication Neutron Resonance Densitometry (SINRD) is a passive non-destructive method that is b...
Self-interrogation neutron resonance densitometry (SINRD) is a non-destructive analysis technique th...
Self-interrogation neutron resonance densitometry (SINRD) is a non-destructive analysis technique th...
The verification of spent fuel assemblies is among the activities conducted during a safeguards insp...
The Self-Interrogation Neutron Resonance Densitometry (SINRD) is a passive non-destructive assay (ND...
The safeguards verification of spent nuclear fuel is one of the major concern for the safeguards com...
ii There has been a strong international interest in using pyroprocessing to close the fast nuclear ...
The development of non-destructive assay (NDA) capabilities to directly measure the fissile content ...
The integrity test applicable to TRU fuel containing MA with high radioactivity and high decay heat ...
Neutron-induced reactions can be used to study the properties of nuclear materials of interest in th...
Neutrons can be used as a tool to study materials and objects. Cross sections of neutron induced rea...
Many different nondestructive analysis techniques are currently being investigated as a part of the ...
The Next Generation Safeguard Initiative (NGSI) of the U.S Department of Energy is supporting a mult...
Recent attention to nuclear safeguards has stepped up the need for additional non proliferation safe...
In order to improve the prediction of heavy actinide concentration in reactor fuel elements and to s...