To produce commercial energy, future fusion power plants will need to achieve temperatures of 100 million degrees C. To do so requires careful control of the plasma. In a study published in the journal Nuclear Fusion, researchers refined operating conditions to achieve the necessary temperatures in a compact spherical tokamak device called ST40.
This device is unique; it is much smaller and has a more spherical plasma than other fusion devices. To achieve these results, the researchers used an approach similar to past "supershots" that produced more than 10 million watts of fusion power in the TFTR tokamak in the 1990s.
This effort demonstrated fusion-relevant ion temperatures in a compact, high magnetic field, spherical tokamak for the first time. This confirms that the spherical tokamak can achieve one of the conditions necessary for commercial fusion energy production. These results also show that similar fusion pilot plants may lead to more compact, and potentially more economical, fusion power sources than other configurations.
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