Progress of Tripwire: Multi-modal Distributed Sensing for Repository Verification

Year
2022
Author(s)
Luis Ocampo Giraldo - Idaho National Laboratory
Scott Thompson - Idaho National Laboratory
Jay Hix - Idaho National Laboratory
James Johnson - Idaho National Laboratory
David Chichester - Idaho National Laboratory
Abstract
This project is developing and demonstrating a multi?modal sensor system, TRIPWIRE, for containment verification in inaccessible radiological and nuclear waste repositories. The TRIPWIRE system will continuously monitor ionizing radiation and electromagnetic fields in the vicinity of emplaced nuclear materials buried in a repository, reporting on disturbances with a real?time alarm control station. The system will use long?length scintillating fiber bundles (SFBs) to perform area radiation monitoring; these will be coupled to kilometer?scale multimodal optical communication fibers – all light sensors and electronic components used with this system will be located above ground. Electromagnetic fields, and changes in local dielectric conditions caused by intrusion and soil movement, will be monitored using commercial grade, ported "leaky" coaxial cables (PCCs), with control electronics also located above ground. This paper documents the results of the simulations and modeling efforts that have helped identify the optimal placement of the SFBs. Additionally, the paper includes the current progress on the multi-modal SFB-PCC system, including the fabrication of long-length (>3-m) fibers and their coupling to optical fibers.