A laser-driven source of pulsed neutrons together with in-line production of a penetrating, point-like source of X-rays for high resolution tomography is an innovative approach and highly complementary combination that can deliver a single beamline technology solution for the inspection challenge of fast throughput nuclear waste assay of intermediate level waste containers. The CLF’s DiPOLE laser system, capable of delivering high peak power pulses at 10Hz, is envisioned as the enabling technology platform for translation of this inspection solution into a nuclear application environment, such as the inspection cells at Sellafield’s Cumbria site.
The CLF’s Dr Ceri Brenner, together with the University of Bristol, developed the idea to apply laser-driven X-rays and neutrons for this specific inspection challenge and has led the experimental programme carried out so far in development of this.
The seminal paper for this application of laser-driven sources was is available here:
View in the Journal of Hazardous Materials
Subsequent publications are listed here:
A review of recent activities on laser-driven neutrons for industrial applications (ResearchGate)
Ultra-short, Beamed Source of Laser-driven Epithermal Neutrons (PDF)