Geometrical optics for Vlasov plasmas in Tokamak machines

De Luca, F.; Maroli, C.; Petrillo, V.

doi:10.1007/BF02739890

Geometrical optics for Vlasov plasmas in Tokamak machines

II: An application to electron-cyclotron frequency heating

Геометрическая оптика для плазмы Власова в аппаратах типа Токамак

II: Применение за електрон-циклотронной нагреваний

Published: 22 January 2008

Volume 53, pages 195–208, (1979)
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Il Nuovo Cimento B (1971-1996)

F. De Luca¹,
C. Maroli¹ &
V. Petrillo¹

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3 Citations
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Summary

The general technique described in the first part of the paper is applied to illustrate the basic linear aspects of the electron-cyclotron frequency heating in Tokamaks. Both rays and efficiency of power deposition inside the plasma have been calculated numerically for machines typical of two successive generations.

Riassunto

Si applica la tecnica illustrata nella prima parte del lavoro per descrivere le caratteristiche fondamentali del riscaldamento dei plasmi di tipo Tokamak usando frequenze vicine alla frequenza ciclotronica elettronica. Si calcolano numericamente raggi ed efficienze di deposizione di potenza per macchine tipiche di due generazioni successive.

Резюме

Предложенная техника с первой части статьи применяется для рассмотрения основных линейных аспектов нагревания в Токамаках. Для аппаратов типа двух последовательных генератотов проводится численное вычисление лучей и эффективности выделения энергии внутри плазмы.

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Maxwell-Vlasov equations for laboratory plasmas: conservation laws and approximation schemes

Article 18 December 2014

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Relativistic Vlasov code development for high energy density plasmas

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Laboratorio di Fisica del Plasma, Associazione CNR-Euratom, Via Bassini 15, 20133, Milano
F. De Luca, C. Maroli & V. Petrillo

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F. De Luca
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C. Maroli
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V. Petrillo
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De Luca, F., Maroli, C. & Petrillo, V. Geometrical optics for Vlasov plasmas in Tokamak machines. Nuov Cim B 53, 195–208 (1979). https://doi.org/10.1007/BF02739890

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Received: 28 June 1979
Published: 22 January 2008
Issue Date: October 1979
DOI: https://doi.org/10.1007/BF02739890

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Geometrical optics for Vlasov plasmas in Tokamak machines

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Maxwell-Vlasov equations for laboratory plasmas: conservation laws and approximation schemes

Reconstruction of the Dependence of Radiative Loss of the Tokamak Plasma Using the Experimental Transverse Distribution of Radiation

Relativistic Vlasov code development for high energy density plasmas

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Geometrical optics for Vlasov plasmas in Tokamak machines

Summary

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Similar content being viewed by others

Maxwell-Vlasov equations for laboratory plasmas: conservation laws and approximation schemes

Reconstruction of the Dependence of Radiative Loss of the Tokamak Plasma Using the Experimental Transverse Distribution of Radiation

Relativistic Vlasov code development for high energy density plasmas

References

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Authors and Affiliations

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