Fakultät für Physik




Tokamak and stellarator - two concepts for a fusion power plant

Prof. Dr. Sibylle Günter (Max-Planck-Institut für Plasmaphysik, Garching and Greifswald)

Datum:  15.01.2018 17:15 Uhr – 18:30 Uhr

Ort: Hörsaal 2, Physik-Department der TUM Garching

Nuclear fusion could contribute to the energy mix in the second half of this century. For a fusion reactor, matter has to be heated up to extremely high temperatures: more than 100 million degrees - about a factor of 10 hotter than the sun's core. At these temperatures, the material is fully ionized. The charged particles can be confined by magnetic fields, which are also able to provide the required efficient heat insulation. There are two promising magnetic confinement concepts: tokamak and stellarator. The tokamak concept as realized in ITER is by far the most advanced confinement configuration. It however requires the continuous flow of an electric current in a donut-shaped plasma which hardly allows for steady state operation. An alternative to the tokamak is the stellarator, which has a considerably more complex magnetic configuration, but is intrinsically stationary. The complex magnetic field of a stellarator requires careful optimization to ensure sufficiently good confinement properties. The first optimized stellarator of sufficient size to proof that the stellarator concept has the potential for a power plant, Wendelstein 7-X, has recently started operation in Greifswald, Germany. The pros and cons of the two confinement concepts will be compared and the problems to be solved on the way to a fusion power plant will be discussed.

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Student event: Meet the speaker

We invite you to a student-only discussion-round with Prof. Dr. Sibylle Günter before his Munich Physics Colloquium talk. Be curious and feel free to ask any question.
Monday, 15 January 2018, 16:00 h, Seminar room PH 3076 (upper floor), Physik-Department der TUM, James-Franck-Straße 1, Garching

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