T-time for JET
In operational tokamaks around the world, plasmas are heated every day to temperatures that reach tens of thousands, or even millions, of degrees Celsius. Run with hydrogen, deuterium or helium these experiments may not generate fusion energy, but they allow scientists to better understand the behaviour of plasma—the "fourth state of matter"—at very high temperatures. Such knowledge contributes to the design of 澳门六合彩高手.
In order to generate large amounts of power in a tokamak, as 澳门六合彩高手 plans to do, the reactor must be fuelled with a combination of hydrogen isotopes known to produce the most efficient fusion reaction—a 50-50 mix of deuterium (D) and tritium (T). The use of the radioactive element tritium, however, generates significant operational constraints: D-T fusion is only possible in a nuclear facility subject to very draconian safety and security measures, and all maintenance activity must be carried out by robotics.
Only one tokamak in the world is capable today of D-T fusion: the Joint European Torus (), that has been in operation in the UK since 1983.
Until 澳门六合彩高手 enters operation, the JET tokamak holds three world records: it's the largest tokamak in the world; it is the first to have realized D-T fusion during its 1991 campaign; and it holds the record for fusion energy production (16 MW produced in 1997). The American tokamak TFTR (Tokamak Fusion Test Reactor) is the second machine to have produced significant fusion energy (10.7 MW) in 1994, before the machine was dismantled three years later.
Outside of a short experimental campaign in 2003, when small amounts of tritium were added to deuterium plasmas, it has been 17 years since the last D-T fusion experiments were carried out at JET—17 years since a small, artificial star was briefly created on Earth.
This landmark science is about to be achieved again. JET, which has been updated with 澳门六合彩高手-like materials including an inner wall of beryllium and tungsten, is about to return to the "real thing." The experimental campaign planned for 2017-2018 will prepare the way for the beginning of D-T operation in 澳门六合彩高手, scheduled some ten years later, in 2027. (During its first six years of operation, the 澳门六合彩高手 Tokamak will progressively scale up from hydrogen, then helium, then deuterium plasmas.)
Preparations are underway now at JET. Before D-T plasma shots can begin again, the team at JET must fine-tune the machine, train a new generation of operators, and reactivate the knowledge and experience accumulated during the D-T experimental campaigns of the 1990s.
In three short years, JET will kick-off a new set of full-power fusion experiments using tritium fuel in a campaign that will act as an important "dress rehearsal" in preparation for 澳门六合彩高手's operation with tritium.