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Pis'ma v Zhurnal Èksperimental'noi i Teoreticheskoi Fiziki, 2022, Volume 115, Issue 6, Pages 360–378
DOI: https://doi.org/10.31857/S1234567822060040 (Mi jetpl6630) 		 
This article is cited in 10 scientific papers (total in 10 papers)

PLASMA, HYDRO- AND GAS DYNAMICS

Study of geodesic acoustic and Alfvгén modes in toroidal fusion devices (brief review)

A. V. Melnikovabc, V. A. Vershkovc, S. A. Grashinc, M. A. Drabinskiyc, L. G. Eliseevc, I. A. Zemtsovc, V. A. Krupinc, V. P. Lakhinc, S. E. Lysenkoc, A. R. Nemetsc, M. R. Nurgalievcb, N. K. Kharchevcd, P. O. Khabanovc, D. A. Shelukhinc

a Moscow Institute of Physics and Technology (National Research University), Dolgoprudnyi, Moscow oblast, 141701 Russia
b National Research Nuclear University MEPhI (Moscow Engineering Physics Institute), Moscow, 115409 Russia
c National Research Center Kurchatov Institute, Moscow, 123182 Russia
d Prokhorov General Physics Institute, Russian Academy of Sciences, Moscow, 119991 Russia
Full-text PDF (2454 kB) Citations (10)
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DOI: https://doi.org/10.31857/S1234567822060040
Abstract: Geodesic acoustic modes, Alfvén eigenmodes, stationary and oscillating components of the electric field, and their relations to plasma confinement have been studied. Theoretical concepts of the interaction of geodesic acoustic modes with other types of plasma turbulence have been tested. Concomitant problems such as the effect of heating methods on the plasma confinement and turbulence, as well as the properties of impurities and scrape-off layer have also been discussed. Key diagnostics such as heavy ion beam probe, correlation reflectometry, and multipurpose optical diagnostic complex have been described. The main experiments have been performed at the T-10 tokamak, which has a high-power electron cyclotron resonance heating system. The supporting experiments have been performed at the TJ-II stellarator in Spain, the COMPASS tokamak in Czech Republic, and the STOR-M tokamak in Canada. The results of the experiments have been compared with the analytical and numerical calculations.
Funding agency Grant number
Russian Science Foundation 14-22-00193
14-22-00193П
This work was supported by the Russian Science Foundation (project nos. 14-22-00193 and 14-22-00193P).
Received: 04.02.2022
Revised: 04.02.2022
Accepted: 08.02.2022
English version:
Journal of Experimental and Theoretical Physics Letters, 2022, Volume 115, Issue 6, Pages 324–342
DOI: https://doi.org/10.1134/S0021364022200279
Document Type: Article
Language: Russian
Citation: A. V. Melnikov, V. A. Vershkov, S. A. Grashin, M. A. Drabinskiy, L. G. Eliseev, I. A. Zemtsov, V. A. Krupin, V. P. Lakhin, S. E. Lysenko, A. R. Nemets, M. R. Nurgaliev, N. K. Kharchev, P. O. Khabanov, D. A. Shelukhin, “Study of geodesic acoustic and Alfvгén modes in toroidal fusion devices (brief review)”, Pis'ma v Zh. Èksper. Teoret. Fiz., 115:6 (2022), 360–378; JETP Letters, 115:6 (2022), 324–342
Citation in format AMSBIB
\Bibitem{MelVerGra22}
\by A.~V.~Melnikov, V.~A.~Vershkov, S.~A.~Grashin, M.~A.~Drabinskiy, L.~G.~Eliseev, I.~A.~Zemtsov, V.~A.~Krupin, V.~P.~Lakhin, S.~E.~Lysenko, A.~R.~Nemets, M.~R.~Nurgaliev, N.~K.~Kharchev, P.~O.~Khabanov, D.~A.~Shelukhin
\paper Study of geodesic acoustic and Alfvг\'en modes in toroidal fusion devices (brief review)
\jour Pis'ma v Zh. \`Eksper. Teoret. Fiz.
\yr 2022
\vol 115
\issue 6
\pages 360--378
\mathnet{http://mi.mathnet.ru/jetpl6630}
\crossref{https://doi.org/10.31857/S1234567822060040}
\transl
\jour JETP Letters
\yr 2022
\vol 115
\issue 6
\pages 324--342
\crossref{https://doi.org/10.1134/S0021364022200279}
Linking options:
  • https://www.mathnet.ru/eng/jetpl6630
  • https://www.mathnet.ru/eng/jetpl/v115/i6/p360
    • This publication is cited in the following 10 articles:
    1. V. A. KRUPIN, M. R. NURGALIEV, A. R. NEMETS, I. A. ZEMTSOV, S. D. SUNTSOV, T. B. MYALTON, D. S. SERGEEV, N. A. SOLOVEV, D. V. SARYCHEV, D. V. RYJAKOV, S. N. TUGARINOV, N. N. NAUMENKO, Plasma Sci. Technol., 26:4 (2024), 045101  crossref
    2. N. S. Sergeev, A. V. Melnikov, L. G. Eliseev, JETP Letters, 119:11 (2024), 852–859  mathnet  crossref  crossref
    3. Kaushlender Singh, Suman Dolui, Bharat Hegde, Lavkesh Lachhvani, Sharvil Patel, Injamul Hoque, Ashok K. Kumawat, Ankit Kumar, Tanmay Macwan, Harshita Raj, Soumitra Banerjee, Komal Yadav, Abha Kanik, Pramila Gautam, Rohit Kumar, Suman Aich, Laxmikanta Pradhan, Ankit Patel, Kalpesh Galodiya, Daniel Raju, Sameer Kumar, K. A. Jadeja, K. M. Patel, S. N. Pandya, M. B. Chaudhary, R. L. Tanna, P. K. Chattopadhyay, R. Pal, Y. C. Saxena, Abhijit Sen, Joydeep Ghosh, Physics of Plasmas, 31:9 (2024)  crossref
    4. E. A. Sorokina, Jetp Lett., 120:9 (2024), 642  crossref
    5. E. A. Sorokina, Pisma v ZhETF, 120:9 (2024), 667–674  mathnet  crossref
    6. G. I. Andreev, V. L. Bychkov, V. P. Shevelko, JETP Letters, 117:6 (2023), 435–440  mathnet  crossref  crossref
    7. I. A. Shelegeda, M. A. Drabinskiy, M. V. Talalay, I. A. Nazarov, Phys. Atom. Nuclei, 86:12 (2023), 2652  crossref
    8. Yu. N. Dnestrovskij, A. V. Melnikov, V. F. Andreev, S. E. Lysenko, M. R. Nurgaliev, A. G. Shalashov, JETP Letters, 118:4 (2023), 255–261  mathnet  crossref  crossref
    9. G. A. Sarancha, L. G. Eliseev, A. V. Melnikov, Ph. O. Khabanov, N. K. Kharchev, JETP Letters, 116:2 (2022), 98–104  mathnet  crossref  crossref
    10. V. A. Krupin, M. R. Nurgaliev, A. R. Nemets, I. A. Zemtsov, P. O. Khabanov, M. A. Drabinskiy, S. E. Lysenko, A. V. Melnikov, T. B. Myalton, D. S. Sergeev, N. A. Solovev, D. V. Sarychev, D. V. Ryjakov, S. N. Tugarinov, N. N. Naumenko, Physics of Plasmas, 29:6 (2022)  crossref
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