Energy record set in magnetic fusion.

Taking another step along the long road to extracting energy from the fusion of atomic nuclei, researchers at the Princeton University Plasma Physics Laboratory last month achieved record levels of controlled fusion power. Using a magnetically confined mixture of equal parts of deuterium deuterium (d

tēr`ēəm), isotope of hydrogen with mass no. 2. The deuterium nucleus, called a deuteron, contains one proton and one neutron. and tritium tritium (trĭt`ēəm), radioactive isotope of hydrogen with mass number 3. The tritium nucleus, called a triton, contains one proton and two neutrons. It has a half-life of 12.5 years and decays by beta-particle emission. (heavy isotopes of hydrogen Hydrogen (H) (Standard atomic mass: 1.00794(7) u) has three naturally occurring isotopes, denoted ¹H, ²H, and ³H. Other, highly unstable nuclei (⁴H to ⁷ ) as fuel, they generated more than 3 million watts of power in a burst lasting about 1 second. In subsequent tests, they raised the fusion reactor's output to more than 5 million watts.

The Princeton results handily beat the previous fusion power record of 1.7 million watts, set in 1991 at the Joint European Torus

JET redirects here, at the article about the research experiment in nuclear physics; for other uses see Jet

JET, the Joint European Torus, is the largest nuclear fusion experimental reactor yet built. (JET) laboratory in Culham, England (SN: 11/16/91, p.308). Nonetheless, the Princeton reactor produced only about one-eighth as much energy as it required to create and maintain the high-temperature plasma of charged particles within which nuclear fusion takes place.

The experiments, conducted at the Tokamak Fusion Test Reactor The Tokamak Fusion Test Reactor (TFTR) was an experimental tokamak fusion test reactor built at Princeton Plasma Physics Laboratory (in Princeton, New Jersey) circa 1980. , will continue through most of 1994. Researchers hope to reach a power output of 10 million watts, and they expect these investigations will yield data important for the design of future reactors. The reactor, contaminated with radioactive tritium, will be closed down and dismantled after the experiments are completed.

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Title Annotation:	5 million watt fusion power burst recorded
Publication:	Science News
Article Type:	Brief Article
Date:	Jan 1, 1994
Words:	204
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Topics:	Magnetic fusion Research Nuclear fusion Research

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