Oak Ridge National Laboratory (ORNL) is currently testing a next-generation fission chamber developed by Curtiss-Wright, according to a recent announcement. The chamber, designed to enhance the precision of neutron detection, is undergoing evaluation at ORNL’s High Flux Isotope Reactor (HFIR).
The testing phase aims to validate the performance of the new fission chamber in a high-radiation environment, a critical step toward its potential deployment in advanced nuclear applications. Curtiss-Wright’s design represents an evolution in fission chamber technology, promising improved accuracy and reliability for measuring neutron flux – a key parameter in nuclear reactor operations and research.
This development occurs alongside ORNL’s broader research initiatives, including a “Quantum Quest” focused on revealing the nature of dark matter, as reported by AZoQuantum. While distinct from the fission chamber project, this underscores ORNL’s commitment to fundamental scientific exploration utilizing advanced technologies.
Separately, researchers at ORNL have engineered a novel crystal structure exhibiting unique magnetic properties with potential quantum applications, according to a report in Phys.org. This research, while not directly related to the fission chamber testing, highlights the laboratory’s diverse portfolio of materials science investigations.
In related news, Jefferson Lab has been selected to lead technology development efforts aimed at improving nuclear waste treatment options, as announced by Newswise. This project, focused on innovative waste management strategies, demonstrates a national emphasis on addressing the challenges associated with nuclear materials.
ORNL has not yet released detailed findings from the fission chamber testing. Curtiss-Wright has not commented on a projected timeline for the chamber’s availability for commercial or research employ.
