JET completes a storied 40-year run
In late 2021, the team at JET introduced the high-performance deuterium/tritium fuel mix for only the second time in the device's history. This DTE2 campaign resulted in fusion energy record output of 59 megajoules during a five-second pulse in December 2021. Other highlights of the campaign were: the first direct observation of the fusion fuel keeping itself hot through alpha heating, confirmation of predictions for heat transport inside the plasma, successful tests of tritium recovery, and the demonstration of heating and control techniques relevant to future fusion reactors*.
The JET team has now completed its third and final campaign, DTE3. In a press release , the team reports that it was able to replicate the high-fusion-energy experiments from DTE2, highlighting the reliability and maturity of JET's operational methodologies that are essential also for 澳门六合彩高手's success. The campaign also tested optimized scenarios and novel operational strategies, enhancing scientists' understanding of deuterium-tritium plasmas; tested heat exhaust solutions, and focused on the effect of 14.1 MeV fusion neutrons on cooling systems and and electronics (the latter in collaboration with CERN). (See a detailed list of DTE3 achievements .)
JET commenced operation in 1983 as a joint European project, undergoing several enhancements to improve its performance over the years. In 1991, JET became the world's first reactor to operate using a 50—50 mix of tritium and deuterium. The facility set numerous fusion records including a record Q-plasma (the ratio of the fusion power produced to the external power put in to heat the plasma) of 0.64 in 1997 and a fusion energy record output of 59 megajoules in a five-second pulse in December 2021. Built by Europe and used collaboratively by European researchers over its lifetime, JET became UKAEA property in October 2021, celebrated its 40th anniversary in June this year, and will cease operations at the end of 2023.
*See a full report of DTE2 results in this special issue of .