 From the control room, graduate students perform experiments on the Alcator C-Mod tokamak to support their thesis work. In the northwest corner of MIT, away from the hustle of the campus center, a team of scientists, engineers, technicians, graduate and undergraduate students are investigating fusion, the energy of the sun and stars. The Nabisco Laboratory at the Plasma Science and Fusion Center (PSFC) is home to the Alcator C-Mod tokamak, an experiment that seeks to understand how to create a virtually endless source of energy on Earth.Although the fusion process occurs naturally in the sun and the stars, on earth it requires unique machines, special knowledge, collaboration and a great deal of patience. A star has such a large mass that its own gravity holds its plasma together, allowing fusion reactions to continue and energy to be produced. In laboratory devices, because plasma particles will follow magnetic fields, magnets are used to hold the plasma together and away from the walls of its container, to confine it long enough for fusion to occur. C-Mod is the third in a series of Alcator tokamaks developed at MIT since the 1960s. Characterized by a donut-shaped vacuum chamber wrapped in high-field magnets, the Alcator approach makes it possible to produce very dense and well-confined plasmas in a relatively compact device. (The name "Alcator" comes from alto campo torus: high field torus.) This approach allowed an earlier experiment, Alcator C, to produce the first magnetically confined plasma with sufficient density and confinement to eventually achieve "breakeven." To actually realize breakeven would require higher temperatures than those reached in Alcator C.  The Alcator C-Mod reactor, in operation since 1993, has the highest magnetic field and the highest plasma pressure of any fusion reactor in the world, and is the largest fusion reactor operated by any university. Research on Alcator C-Mod focuses on several key issues:  Research scientists, engineers and graduate students await the next shot at the Alcator C-Mod control center. These areas of research, and the diagnostics used to explore them, are typical subjects of doctoral dissertations. Alcator C-Mod is one of the premier experimental facilities for training the next generation of plasma scientists. Typically there are about 30 graduate students working on Alcator C-Mod. On any given day a student could be running the experiment, collecting data and gaining new insights into plasma behavior. Research on Alcator C-Mod contributes to an international tokamak project, being built in France: ITER. Designed to study the science of "self-sustained" (burning) plasma, ITER will be the largest tokamak ever created. Fusion energy research at the MIT Plasma Science and Fusion Center is supported by the Office of Fusion Energy Sciences, U.S. Department of Energy. << return to Newsline #124 |
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