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Measuring the number of neutrons produced is one of the most basic yardsticks of success of a fusion experiment, yet it's surprisingly tricky to ensure your neutron detectors are calibrated correctly, says the leader of the team that has just finished calibrating JET's neutron diagnostic systems.
"The physics was only a part of the activity," says Project Leader, Dr Brian Syme. "Obtaining the neutron source, the safety issues and all the engineering developments associated with source handling were three quarters of the project!"
The process sounds simple enough — simply hold a radioactive source that produces a known number of neutrons at a set of known locations in the torus. From the detector counts you have an answer. However to get to that moment took the team three years of careful planning, including intensive neutronics calculations by colleagues in the Slovenian and Swedish associations.
At the Korea Institute of Fusion Energy (KFE), the KSTAR tokamak recommenced operations in December after a major upgrade to replace the…
KSTAR aims for longer plasmas
At the Korea Institute of Fusion Energy (KFE), the KSTAR tokamak recommenced operations in December after a major upgrade to replace the device's carbon divertor with a tungsten divertor.
According to an article on the KFE website, the original carbon divertors could take a thermal load of 5MW/m², whereas the tungsten divertor can take 10MW/m². The upgrade is critical to the goal of sustaining a 100-million-degree plasma for 300 seconds by 2026. Data from the operational campaign will be directly relevant to ITER, which will operate a tungsten divertor under similar plasma conditions in terms of shape and structure.
This testing campaign will continue through February 2024. Read more about the plans in this article in English on the KFE website, or in Korean in the Chosun Biz.