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(EXP2/06) Relativistic Runaway Electrons in TEXTOR-94

N. J. Lopes Cardozo¹⁾, I. Entrop¹⁾, R. Jaspers¹⁾, K. H. Finken²⁾, H. L. M. Widdershoven^1)2)
 
1) FOM Institute Rijnhuizen, Nieuwegein, The Netherlands
²⁾ Institut für Plasmaphysik, Forschungszentrum Jülich GmbH, Jülich, Germany

Abstract.  This paper reviews results concerning generation, confinement and transport of runaway electrons in the energy range 20-30 MeV in the TEXTOR tokamak. Runaway electrons above 20 MeV emit synchrotron radiation in the (near) infrared wavelength range, which can easily be detected by thermographic cameras. This technique is developed and exploited at the TEXTOR-94 tokamak and has resulted in some spectacular results. These include: the experimental evidence of the secondary (`knock-on') runaway generation; the discovery of the runaway snake; the observation of disruption generated runaways; the probing of magnetic turbulence in the core of the plasma in Ohmic and additionally heated plasmas.

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