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Reconstruction of tokamak density profiles using feedforward networks

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Abstract

The tokamak is currently the principal magnetic confinement system for controlled fusion research. In seeking to understand the physics of the high temperature plasma inside the tokamak, it is important to have detailed information on the spatial distribution of electron density. One technique for density measurement uses laser interferometry, which gives line-integral information along chords through the plasma. This requires an inversion procedure to extract spatially local density information. In this paper we make use of feedforward networks to extract local density profiles from the line-integral data obtained from the multichannel interferometer on the JET (Joint European Torus) tokamak. An important feature of our approach is the use of profile data from a second high resolution diagnostic system, called LIDAR, to train the network. The LIDAR system provides data at high spatial resolution but with a low repetition rate, and therefore has a complementary rôle to interferometry which operates at a high sampling rate but with much lower spatial resolution. Results show that the neural network is able to extract significantly more detailed profile information than the conventional Abel inversion method currently used on JET.

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Authors and Affiliations

  1. Harwell Laboratory, AEA Technology, OX11 0RA, Oxon, UK

    Chris Bishop & Iain Strachan

  2. JET Joint European Torus, OX14 3EA, Oxon, UK

    John O'Rourke & Paul Thomas

  3. Culham Laboratory, AEA Technology, OX14 3DB, Oxon, UK

    Geoff Maddison

Authors
  1. Chris Bishop
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  2. Iain Strachan
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  3. John O'Rourke
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  4. Geoff Maddison
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  5. Paul Thomas
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Bishop, C., Strachan, I., O'Rourke, J. et al. Reconstruction of tokamak density profiles using feedforward networks. Neural Comput & Applic 1, 4–16 (1993). https://doi.org/10.1007/BF01411370

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  • DOI: https://doi.org/10.1007/BF01411370

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