Analysis of possible improvement of the plasma performance in JET due to the inward spatial channelling of fast-ion energy

JET Contributors

doi:10.1088/1741-4326/aac09f

Analysis of possible improvement of the plasma performance in JET due to the inward spatial channelling of fast-ion energy

JET Contributors

Laboratory for Plasma Physics

Institute for Nuclear Research
Ecole Polytechnique Federale de Lausanne
Culham Centre for Fusion Energy
FORSCHUNGSZENTRUM JULICH GMBH
Institute for Plasma Research
Instituto Superior Técnico
Queens University
University of Helsinki
Commissariat à l'Énergie Atomique (CEA)
VTT Technical Research Centre of Finland
National Institutes for Quantum and Radiological Science and Technology
University of Napoli 'Federico II'
Universidad Nacional de Educación a Distancia
Istituto di Fisica del Plasma Piero Caldirola
ITER
Consorzio Rfx
Kurchatov Institute
University of Napoli Parthenope
ENEA Centro Ricerche Frascati
Troitsk Insitute of Innovating and Thermonuclear Research (TRINITI)
Uppsala University
The National Institute for Cryogenics and Isotopic Technology
Max-Planck-Institut für Plasmaphysik
University of Ghent
Université Libre de Bruxelles
Università degli Studi di Catania
Fusion for Energy
National Institute for Fusion Science
Massachusetts Institute of Technology
Aalto University
University of Latvia
Imperial College London
Laboratorio Nacional de Fusión
University of Oxford
EUROfusion
Oak Ridge National Laboratory
KARLSRUHER INSTITUT FUER TECHNOLOGIE
University of York
KTH Royal Institute of Technology
Maritime University of Szczecin
Institute of Nuclear Physics PAN
Institute of Plasma Physics, Academy of Sciences of the Czech Republic
University of Trento
Wigner Research Centre for Physics
University Mlynska
Lviv Polytechnic National University
University of Milano-Bicocca
The National Institute for Optoelectronics
Fourth State Research
University of Texas at Austin
STUDIECENTRUM VOOR KERNENERGIE / CENTRE D'ETUDE DE L'ENERGIE NUCLEAIRE
Narodowe Centrum Badań Jadrowych
Princeton Plasma Physics Laboratory
Université Aix Marseille
University of Cagliari
University of Warwick
Institute of Plasma Physics and Laser Microfusion
FOM Institute DIFFER
National Institute for Laser, Plasma and Radiation Physics
Jozef Stefan Institute
Université de Lorraine
Institute of Plasma Physics Chinese Academy of Sciences
Center for Energy Research
The 'Horia Hulubei' National Institute for Physics and Nuclear Engineering
Chalmers University of Technology
European Commission
Universidad Politécnica de Madrid
Second University of Napoli
Warsaw University of Technology
University of Basilicata
Barcelona Supercomputer Centre
University of Seville
Centro Brasileiro de Pesquisas Fisicas
University of Rome Tor Vergata
Ioffe Physical-Technical Institute of the Russian Academy of Sciences
General Atomics
Universitat Innsbruck
University of Toyama
University of Strathclyde
National Technical University of Athens
University of Tuscia
Technical University of Denmark
KAIST
Seoul National University
UNIVERSITY COLLEGE CORK, NATIONAL UNIVERSITY OF IRELAND, CORK
Vienna University of Technology
University of Opole
Daegu University
National Fusion Research Institute (NFRI)
Dublin City University
Pelin Llc
Arizona State University
Universidad Complutense de Madrid
University of Basel
Universidad Carlos III de Madrid
Consorzio CREATE
NCSR 'Demokritos'
Purdue University
University of California
Universidade de São Paulo
Lithuanian Energy Institute
HRS Fusion
Politecnico di Torino
University of Cassino
University of Electronic Science and Technology of China

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

11 Citations (Scopus)

Résumé

Effects of the spatial chanelling (SC) of the energy of fusion-produced alpha particles - the spatial transfer of the energy of fast ions by destabilized eigenmodes and delivering this energy to bulk plasma particles (Kolesnichenko et al 2010 Phys. Rev. Lett. 104 075001) - on the plasma performance is studied. Analysis is carried out in the assumption that alpha particles located in the peripheral region of the plasma destabilize multiple fast magnetoacoustic modes (FMM) having global radial structure. The FMM with the frequencies close to cyclotron harmonics of alpha particles are considered. It is found that these FMM can be in resonance with the bulk plasma ions and electrons located in the central region of the plasma, delivering the alpha energy to this region. This improves the overall plasma confinement. In addition, it leads to anomalous ion heating when the ion damping of FMM exceeds the electron one. The damping rates of the considered waves are calculated. It is shown that reasonably small amplitude waves can receive and transfer across the flux surfaces as large power density as that required for spatial channelling of a considerable part of fusion energy. The developed theory of the inward spatial channelling is applied to JET experiments carried out during the deuterium-tritium-experiment campaign (DTE1), where presumably anomalous ion heating and improvement of the plasma confinement took place.

langue originale	Anglais
Numéro d'article	076012
journal	Nuclear Fusion
Volume	58
Numéro de publication	7
Les DOIs	https://doi.org/10.1088/1741-4326/aac09f
état	Publié - 15 mai 2018

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10.1088/1741-4326/aac09f

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@article{d9132bdef9fb475698ac53325b27ac52,

title = "Analysis of possible improvement of the plasma performance in JET due to the inward spatial channelling of fast-ion energy",

abstract = "Effects of the spatial chanelling (SC) of the energy of fusion-produced alpha particles - the spatial transfer of the energy of fast ions by destabilized eigenmodes and delivering this energy to bulk plasma particles (Kolesnichenko et al 2010 Phys. Rev. Lett. 104 075001) - on the plasma performance is studied. Analysis is carried out in the assumption that alpha particles located in the peripheral region of the plasma destabilize multiple fast magnetoacoustic modes (FMM) having global radial structure. The FMM with the frequencies close to cyclotron harmonics of alpha particles are considered. It is found that these FMM can be in resonance with the bulk plasma ions and electrons located in the central region of the plasma, delivering the alpha energy to this region. This improves the overall plasma confinement. In addition, it leads to anomalous ion heating when the ion damping of FMM exceeds the electron one. The damping rates of the considered waves are calculated. It is shown that reasonably small amplitude waves can receive and transfer across the flux surfaces as large power density as that required for spatial channelling of a considerable part of fusion energy. The developed theory of the inward spatial channelling is applied to JET experiments carried out during the deuterium-tritium-experiment campaign (DTE1), where presumably anomalous ion heating and improvement of the plasma confinement took place.",

keywords = "Tokamaks, alpha particles, eigenmodes, energetic ions, instabilities, waves",

author = "Kolesnichenko, \{Ya I.\} and Lutsenko, \{V. V.\} and Tyshchenko, \{M. H.\} and H. Weisen and Yakovenko, \{Yu V.\} and X. Litaudon and S. Abduallev and M. Abhangi and P. Abreu and M. Afzal and Aggarwal, \{K. M.\} and T. Ahlgren and Ahn, \{J. H.\} and L. Aho-Mantila and N. Aiba and M. Airila and R. Albanese and V. Aldred and D. Alegre and E. Alessi and P. Aleynikov and A. Alfer and A. Alkseev and M. Allinson and B. Alper and E. Alves and G. Ambrosino and R. Ambrosino and L. Amicucci and V. Amosov and Sund{\'e}n, \{E. Andersson\} and M. Angelone and M. Anghel and C. Angioni and K. Cromb{\'e} and P. Dumortier and F. Durodi{\'e} and S. Jachmich and Y. Kazakov and A. Krivska and E. Lerche and A. Lyssoivan and A. Messiaen and S. Moradi and J. Ongena and R. Ragona and I. Stepanov and \{Van Eester\}, D. and G. Verdoolaege and T. Wauters and \{JET Contributors\}",

note = "Publisher Copyright: {\textcopyright} 2018 EURATOM.",

year = "2018",

month = may,

day = "15",

doi = "10.1088/1741-4326/aac09f",

language = "English",

volume = "58",

journal = "Nuclear Fusion",

issn = "0029-5515",

number = "7",

}

TY - JOUR

T1 - Analysis of possible improvement of the plasma performance in JET due to the inward spatial channelling of fast-ion energy

AU - Kolesnichenko, Ya I.

AU - Lutsenko, V. V.

AU - Tyshchenko, M. H.

AU - Weisen, H.

AU - Yakovenko, Yu V.

AU - Litaudon, X.

AU - Abduallev, S.

AU - Abhangi, M.

AU - Abreu, P.

AU - Afzal, M.

AU - Aggarwal, K. M.

AU - Ahlgren, T.

AU - Ahn, J. H.

AU - Aho-Mantila, L.

AU - Aiba, N.

AU - Airila, M.

AU - Albanese, R.

AU - Aldred, V.

AU - Alegre, D.

AU - Alessi, E.

AU - Aleynikov, P.

AU - Alfer, A.

AU - Alkseev, A.

AU - Allinson, M.

AU - Alper, B.

AU - Alves, E.

AU - Ambrosino, G.

AU - Ambrosino, R.

AU - Amicucci, L.

AU - Amosov, V.

AU - Sundén, E. Andersson

AU - Angelone, M.

AU - Anghel, M.

AU - Angioni, C.

AU - Crombé, K.

AU - Dumortier, P.

AU - Durodié, F.

AU - Jachmich, S.

AU - Kazakov, Y.

AU - Krivska, A.

AU - Lerche, E.

AU - Lyssoivan, A.

AU - Messiaen, A.

AU - Moradi, S.

AU - Ongena, J.

AU - Ragona, R.

AU - Stepanov, I.

AU - Van Eester, D.

AU - Verdoolaege, G.

AU - Wauters, T.

AU - JET Contributors

PY - 2018/5/15

Y1 - 2018/5/15

N2 - Effects of the spatial chanelling (SC) of the energy of fusion-produced alpha particles - the spatial transfer of the energy of fast ions by destabilized eigenmodes and delivering this energy to bulk plasma particles (Kolesnichenko et al 2010 Phys. Rev. Lett. 104 075001) - on the plasma performance is studied. Analysis is carried out in the assumption that alpha particles located in the peripheral region of the plasma destabilize multiple fast magnetoacoustic modes (FMM) having global radial structure. The FMM with the frequencies close to cyclotron harmonics of alpha particles are considered. It is found that these FMM can be in resonance with the bulk plasma ions and electrons located in the central region of the plasma, delivering the alpha energy to this region. This improves the overall plasma confinement. In addition, it leads to anomalous ion heating when the ion damping of FMM exceeds the electron one. The damping rates of the considered waves are calculated. It is shown that reasonably small amplitude waves can receive and transfer across the flux surfaces as large power density as that required for spatial channelling of a considerable part of fusion energy. The developed theory of the inward spatial channelling is applied to JET experiments carried out during the deuterium-tritium-experiment campaign (DTE1), where presumably anomalous ion heating and improvement of the plasma confinement took place.

AB - Effects of the spatial chanelling (SC) of the energy of fusion-produced alpha particles - the spatial transfer of the energy of fast ions by destabilized eigenmodes and delivering this energy to bulk plasma particles (Kolesnichenko et al 2010 Phys. Rev. Lett. 104 075001) - on the plasma performance is studied. Analysis is carried out in the assumption that alpha particles located in the peripheral region of the plasma destabilize multiple fast magnetoacoustic modes (FMM) having global radial structure. The FMM with the frequencies close to cyclotron harmonics of alpha particles are considered. It is found that these FMM can be in resonance with the bulk plasma ions and electrons located in the central region of the plasma, delivering the alpha energy to this region. This improves the overall plasma confinement. In addition, it leads to anomalous ion heating when the ion damping of FMM exceeds the electron one. The damping rates of the considered waves are calculated. It is shown that reasonably small amplitude waves can receive and transfer across the flux surfaces as large power density as that required for spatial channelling of a considerable part of fusion energy. The developed theory of the inward spatial channelling is applied to JET experiments carried out during the deuterium-tritium-experiment campaign (DTE1), where presumably anomalous ion heating and improvement of the plasma confinement took place.

KW - Tokamaks

KW - alpha particles

KW - eigenmodes

KW - energetic ions

KW - instabilities

KW - waves

UR - https://www.scopus.com/pages/publications/85049862449

U2 - 10.1088/1741-4326/aac09f

DO - 10.1088/1741-4326/aac09f

M3 - Article

AN - SCOPUS:85049862449

SN - 0029-5515

VL - 58

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 7

M1 - 076012

ER -

Analysis of possible improvement of the plasma performance in JET due to the inward spatial channelling of fast-ion energy

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