Add to ORKGWe recently developed induced fission and transmission imaging methods with time- and directionally-tagged neutrons offer new capabilities for characterization of fissile material configurations and enhanced detection of special nuclear materials (SNM). An Advanced Associated Particle Imaging (API) generator with higher angular resolution and neutron yield than existing systems is needed to fully exploit these methods
Associated particle imaging (API) is a non-destructive nuclear technique for the 3D determination of...
A complete system has been simulated using experimentally obtained input parameters for the detectio...
We present recent work on a prototype compact neutron generator for associated particle imaging (API...
The use of accelerator-based neutron generators for non-destructive imaging and analysis in commerci...
Associated Particle Imaging (API) is an active neutron probe technique that provides a 3-D image wit...
AbstractAssociated particle imaging (API) is a powerful technique for special nuclear material (SNM)...
We have developed a thermal-neutron coded-aperture imager that reveals the locations of hydrogenous ...
This summary describes experiments to detect and identify fissionable materials using the tagged neu...
Neutron Imaging (NI) has been developed in the last decades from a film-based inspection method for ...
Neutron Imaging (NI) has been developed in the last decades from a film-based inspection method for ...
Associated particle imaging (API) is a non-destructive nuclear technique for the 3D determination of...
Associated Particle Imaging (API) is a nuclear technique that allows for the non-destructive determi...
Experiments have been conducted using a modern high-resolution {sup 3}He two-dimensional position-se...
Associated particle imaging (API) is a non-destructive nuclear technique for the 3D determination of...
Abstract Imaging using scintillators is a widespread and cost-effective approach in radiography. Whi...
Associated particle imaging (API) is a non-destructive nuclear technique for the 3D determination of...
A complete system has been simulated using experimentally obtained input parameters for the detectio...
We present recent work on a prototype compact neutron generator for associated particle imaging (API...
The use of accelerator-based neutron generators for non-destructive imaging and analysis in commerci...
Associated Particle Imaging (API) is an active neutron probe technique that provides a 3-D image wit...
AbstractAssociated particle imaging (API) is a powerful technique for special nuclear material (SNM)...
We have developed a thermal-neutron coded-aperture imager that reveals the locations of hydrogenous ...
This summary describes experiments to detect and identify fissionable materials using the tagged neu...
Neutron Imaging (NI) has been developed in the last decades from a film-based inspection method for ...
Neutron Imaging (NI) has been developed in the last decades from a film-based inspection method for ...
Associated particle imaging (API) is a non-destructive nuclear technique for the 3D determination of...
Associated Particle Imaging (API) is a nuclear technique that allows for the non-destructive determi...
Experiments have been conducted using a modern high-resolution {sup 3}He two-dimensional position-se...
Associated particle imaging (API) is a non-destructive nuclear technique for the 3D determination of...
Abstract Imaging using scintillators is a widespread and cost-effective approach in radiography. Whi...
Associated particle imaging (API) is a non-destructive nuclear technique for the 3D determination of...
A complete system has been simulated using experimentally obtained input parameters for the detectio...
We present recent work on a prototype compact neutron generator for associated particle imaging (API...