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A sustained high-temperature fusion plasma regime facilitated by fast ions

Author

Listed:
  • H. Han

    (Korea Institute of Fusion Energy)

  • S. J. Park

    (Seoul National University)

  • C. Sung

    (Korea Advanced Institute of Science and Technology)

  • J. Kang

    (Korea Institute of Fusion Energy)

  • Y. H. Lee

    (Korea Institute of Fusion Energy
    Seoul National University)

  • J. Chung

    (Korea Institute of Fusion Energy)

  • T. S. Hahm

    (Seoul National University)

  • B. Kim

    (Seoul National University)

  • J.-K. Park

    (Princeton Plasma Physics Laboratory)

  • J. G. Bak

    (Korea Institute of Fusion Energy)

  • M. S. Cha

    (Seoul National University)

  • G. J. Choi

    (Seoul National University)

  • M. J. Choi

    (Korea Institute of Fusion Energy)

  • J. Gwak

    (Seoul National University)

  • S. H. Hahn

    (Korea Institute of Fusion Energy)

  • J. Jang

    (Korea Institute of Fusion Energy)

  • K. C. Lee

    (Korea Institute of Fusion Energy)

  • J. H. Kim

    (Korea Institute of Fusion Energy)

  • S. K. Kim

    (Princeton Plasma Physics Laboratory
    Princeton University)

  • W. C. Kim

    (Korea Institute of Fusion Energy)

  • J. Ko

    (Korea Institute of Fusion Energy
    Korean University of Science and Technology)

  • W. H. Ko

    (Korea Institute of Fusion Energy
    Korean University of Science and Technology)

  • C. Y. Lee

    (Seoul National University)

  • J. H. Lee

    (Korea Institute of Fusion Energy
    Korean University of Science and Technology)

  • J. H. Lee

    (Korea Institute of Fusion Energy)

  • J. K. Lee

    (Korea Institute of Fusion Energy
    Korean University of Science and Technology)

  • J. P. Lee

    (Hanyang University)

  • K. D. Lee

    (Korea Institute of Fusion Energy)

  • Y. S. Park

    (Columbia University)

  • J. Seo

    (Seoul National University)

  • S. M. Yang

    (Princeton Plasma Physics Laboratory)

  • S. W. Yoon

    (Korea Institute of Fusion Energy)

  • Y.-S. Na

    (Seoul National University)

Abstract

Nuclear fusion is one of the most attractive alternatives to carbon-dependent energy sources1. Harnessing energy from nuclear fusion in a large reactor scale, however, still presents many scientific challenges despite the many years of research and steady advances in magnetic confinement approaches. State-of-the-art magnetic fusion devices cannot yet achieve a sustainable fusion performance, which requires a high temperature above 100 million kelvin and sufficient control of instabilities to ensure steady-state operation on the order of tens of seconds2,3. Here we report experiments at the Korea Superconducting Tokamak Advanced Research4 device producing a plasma fusion regime that satisfies most of the above requirements: thanks to abundant fast ions stabilizing the core plasma turbulence, we generate plasmas at a temperature of 100 million kelvin lasting up to 20 seconds without plasma edge instabilities or impurity accumulation. A low plasma density combined with a moderate input power for operation is key to establishing this regime by preserving a high fraction of fast ions. This regime is rarely subject to disruption and can be sustained reliably even without a sophisticated control, and thus represents a promising path towards commercial fusion reactors.

Suggested Citation

  • H. Han & S. J. Park & C. Sung & J. Kang & Y. H. Lee & J. Chung & T. S. Hahm & B. Kim & J.-K. Park & J. G. Bak & M. S. Cha & G. J. Choi & M. J. Choi & J. Gwak & S. H. Hahn & J. Jang & K. C. Lee & J. H., 2022. "A sustained high-temperature fusion plasma regime facilitated by fast ions," Nature, Nature, vol. 609(7926), pages 269-275, September.
  • Handle: RePEc:nat:nature:v:609:y:2022:i:7926:d:10.1038_s41586-022-05008-1
    DOI: 10.1038/s41586-022-05008-1
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    Cited by:

    1. SeongMoo Yang & Jong-Kyu Park & YoungMu Jeon & Nikolas C. Logan & Jaehyun Lee & Qiming Hu & JongHa Lee & SangKyeun Kim & Jaewook Kim & Hyungho Lee & Yong-Su Na & Taik Soo Hahm & Gyungjin Choi & Joseph, 2024. "Tailoring tokamak error fields to control plasma instabilities and transport," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    2. Jeronimo Garcia & Yevgen Kazakov & Rui Coelho & Mykola Dreval & Elena de la Luna & Emilia R. Solano & Žiga Štancar & Jacobo Varela & Matteo Baruzzo & Emily Belli & Phillip J. Bonofiglo & Jeff Candy & , 2024. "Stable Deuterium-Tritium plasmas with improved confinement in the presence of energetic-ion instabilities," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
    3. S. K. Kim & R. Shousha & S. M. Yang & Q. Hu & S. H. Hahn & A. Jalalvand & J.-K. Park & N. C. Logan & A. O. Nelson & Y.-S. Na & R. Nazikian & R. Wilcox & R. Hong & T. Rhodes & C. Paz-Soldan & Y. M. Jeo, 2024. "Highest fusion performance without harmful edge energy bursts in tokamak," Nature Communications, Nature, vol. 15(1), pages 1-11, December.

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