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Overview of GOL-NB experiments in 2025. / Postupaev, Vladimir V.; Batkin, Vldimir V.; Burdakov, Aleksandr V. и др.

в: Journal of Plasma Physics, Том 92, № 3, E90, 06.2026.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Postupaev, VV, Batkin, VV, Burdakov, AV, Gorokhovsky, RG, Ivanov, IA, Kalinin, PV, Kuklin, KN, Mekler, KI, Melnikov, NA, Nikishin, AV, Polosatkin, SV, Rovenskikh, AF, Sidorov, E, Skovorodin, DI & Skuratov, EN 2026, 'Overview of GOL-NB experiments in 2025', Journal of Plasma Physics, Том. 92, № 3, E90. https://doi.org/10.1017/s0022377826101895

APA

Postupaev, V. V., Batkin, V. V., Burdakov, A. V., Gorokhovsky, R. G., Ivanov, I. A., Kalinin, P. V., Kuklin, K. N., Mekler, K. I., Melnikov, N. A., Nikishin, A. V., Polosatkin, S. V., Rovenskikh, A. F., Sidorov, E., Skovorodin, D. I., & Skuratov, E. N. (2026). Overview of GOL-NB experiments in 2025. Journal of Plasma Physics, 92(3), [E90]. https://doi.org/10.1017/s0022377826101895

Vancouver

Postupaev VV, Batkin VV, Burdakov AV, Gorokhovsky RG, Ivanov IA, Kalinin PV и др. Overview of GOL-NB experiments in 2025. Journal of Plasma Physics. 2026 июнь;92(3):E90. doi: 10.1017/s0022377826101895

Author

Postupaev, Vladimir V. ; Batkin, Vldimir V. ; Burdakov, Aleksandr V. и др. / Overview of GOL-NB experiments in 2025. в: Journal of Plasma Physics. 2026 ; Том 92, № 3.

BibTeX

@article{f91dfcd60468450285fe74e7593dcc72,
title = "Overview of GOL-NB experiments in 2025",
abstract = "An overview of new experimental results obtained at the GOL-NB multiple-mirror trap over the past two years is presented. The main scientific objectives of GOL-NB are the direct demonstration of the multiple-mirror confinement efficiency with hydrogen plasma. The device has a configuration that simulates, at reduced plasma parameters, the configuration of a reactor-class facility with a central gas dynamic trap and sections with a strong magnetic field attached to it, which can be turned on both as long solenoids or as multiple mirrors. Plasma is heated by 1 MW neutral beam injection. The following elements are discussed in the paper: magnetohydrodynamic (MHD) stability, plasma parameters in the central trap, neutral beam trapping and fast ion spectrum, comparison of the multiple-mirror and solenoidal configurations at high collisionality, and measures for the reduction in neutral density. The main goals of the experiments were plasma properties characterisation in the central trap and studies of plasma flow in the strong-field sections. We also introduce two new systems for additional plasma heating, a low-energy electron beam mounted at the exit plasma receiver and a 13.56 MHz ICRH system, which is under tests at several kilowatts of input power.",
keywords = "plasma devices, plasma flows, plasma heating",
author = "Postupaev, {Vladimir V.} and Batkin, {Vldimir V.} and Burdakov, {Aleksandr V.} and Gorokhovsky, {Rinat G.} and Ivanov, {Ivan A.} and Kalinin, {Peter V.} and Kuklin, {Konstantin N.} and Mekler, {Konstantin I.} and Melnikov, {Nikita A.} and Nikishin, {Aleksey V.} and Polosatkin, {Sergey V.} and Rovenskikh, {Andrey F.} and Evgeni Sidorov and Skovorodin, {Dmitry Ivanovich} and Skuratov, {Evgeny N.}",
note = "Postupaev VV, Batkin VV, Burdakov AV, et al. Overview of GOL-NB experiments in 2025. Journal of Plasma Physics. 2026;92(3):E90. doi:10.1017/S0022377826101895 This work was supported by the Ministry of Science and Higher Education of the Russian Federation, project FWGM-2025-0043.",
year = "2026",
month = jun,
doi = "10.1017/s0022377826101895",
language = "English",
volume = "92",
journal = "Journal of Plasma Physics",
issn = "0022-3778",
publisher = "Cambridge University Press",
number = "3",

}

RIS

TY - JOUR

T1 - Overview of GOL-NB experiments in 2025

AU - Postupaev, Vladimir V.

AU - Batkin, Vldimir V.

AU - Burdakov, Aleksandr V.

AU - Gorokhovsky, Rinat G.

AU - Ivanov, Ivan A.

AU - Kalinin, Peter V.

AU - Kuklin, Konstantin N.

AU - Mekler, Konstantin I.

AU - Melnikov, Nikita A.

AU - Nikishin, Aleksey V.

AU - Polosatkin, Sergey V.

AU - Rovenskikh, Andrey F.

AU - Sidorov, Evgeni

AU - Skovorodin, Dmitry Ivanovich

AU - Skuratov, Evgeny N.

N1 - Postupaev VV, Batkin VV, Burdakov AV, et al. Overview of GOL-NB experiments in 2025. Journal of Plasma Physics. 2026;92(3):E90. doi:10.1017/S0022377826101895 This work was supported by the Ministry of Science and Higher Education of the Russian Federation, project FWGM-2025-0043.

PY - 2026/6

Y1 - 2026/6

N2 - An overview of new experimental results obtained at the GOL-NB multiple-mirror trap over the past two years is presented. The main scientific objectives of GOL-NB are the direct demonstration of the multiple-mirror confinement efficiency with hydrogen plasma. The device has a configuration that simulates, at reduced plasma parameters, the configuration of a reactor-class facility with a central gas dynamic trap and sections with a strong magnetic field attached to it, which can be turned on both as long solenoids or as multiple mirrors. Plasma is heated by 1 MW neutral beam injection. The following elements are discussed in the paper: magnetohydrodynamic (MHD) stability, plasma parameters in the central trap, neutral beam trapping and fast ion spectrum, comparison of the multiple-mirror and solenoidal configurations at high collisionality, and measures for the reduction in neutral density. The main goals of the experiments were plasma properties characterisation in the central trap and studies of plasma flow in the strong-field sections. We also introduce two new systems for additional plasma heating, a low-energy electron beam mounted at the exit plasma receiver and a 13.56 MHz ICRH system, which is under tests at several kilowatts of input power.

AB - An overview of new experimental results obtained at the GOL-NB multiple-mirror trap over the past two years is presented. The main scientific objectives of GOL-NB are the direct demonstration of the multiple-mirror confinement efficiency with hydrogen plasma. The device has a configuration that simulates, at reduced plasma parameters, the configuration of a reactor-class facility with a central gas dynamic trap and sections with a strong magnetic field attached to it, which can be turned on both as long solenoids or as multiple mirrors. Plasma is heated by 1 MW neutral beam injection. The following elements are discussed in the paper: magnetohydrodynamic (MHD) stability, plasma parameters in the central trap, neutral beam trapping and fast ion spectrum, comparison of the multiple-mirror and solenoidal configurations at high collisionality, and measures for the reduction in neutral density. The main goals of the experiments were plasma properties characterisation in the central trap and studies of plasma flow in the strong-field sections. We also introduce two new systems for additional plasma heating, a low-energy electron beam mounted at the exit plasma receiver and a 13.56 MHz ICRH system, which is under tests at several kilowatts of input power.

KW - plasma devices

KW - plasma flows

KW - plasma heating

UR - https://www.scopus.com/pages/publications/105043814570

UR - https://www.mendeley.com/catalogue/e0b5adc5-a3fc-3ef1-87b0-77f8086e1dcc/

U2 - 10.1017/s0022377826101895

DO - 10.1017/s0022377826101895

M3 - Article

VL - 92

JO - Journal of Plasma Physics

JF - Journal of Plasma Physics

SN - 0022-3778

IS - 3

M1 - E90

ER -

ID: 80210938