Electron cyclotron current drive in a lower hybrid current drive plasma

T. Maehara; S. Yoshimura; T. Minami; K. Hanada; M. Nakamura; T. Maekawa; Y. Terumichi

doi:10.1088/0029-5515/38/1/304

Electron cyclotron current drive in a lower hybrid current drive plasma

T. Maehara, S. Yoshimura, T. Minami, K. Hanada, M. Nakamura, T. Maekawa, Y. Terumichi

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20 Citations (Scopus)

Abstract

Electron cyclotron (EC) current drive experiments were carried out in lower hybrid current drive (LHCD) plasmas on the WT-3 tokamak. Using oblique injection of EC waves, plasma current is ramped up in a frequency range ω/Ω_e ≃ 1.2-1.4, where Ω_e is the EC frequency at the plasma centre. This ramp-up is ascribed to selective EC heating of fast electrons in LHCD plasmas via the fundamental EC resonance at the upshifted frequency due to the Doppler effect. Fast electron momentum distributions are estimated from bremsstrahlung hard X ray spectra. These distributions indicate that the parallel momentum input to the fast electrons in the relativistic energy range from oblique EC waves is effective for efficient EC current drive. Current ramp-up is also observed in the second harmonic frequency range ω/Ω_e ≁ 1.9-2.2. In this case, bulk electrons are heated as well as fast electrons and no definite cause of current ramp-up is clarified.

Original language	English
Pages (from-to)	39-57
Number of pages	19
Journal	Nuclear Fusion
Volume	38
Issue number	1
DOIs	https://doi.org/10.1088/0029-5515/38/1/304
Publication status	Published - Jan 1998

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

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title = "Electron cyclotron current drive in a lower hybrid current drive plasma",

abstract = "Electron cyclotron (EC) current drive experiments were carried out in lower hybrid current drive (LHCD) plasmas on the WT-3 tokamak. Using oblique injection of EC waves, plasma current is ramped up in a frequency range ω/Ωe ≃ 1.2-1.4, where Ωe is the EC frequency at the plasma centre. This ramp-up is ascribed to selective EC heating of fast electrons in LHCD plasmas via the fundamental EC resonance at the upshifted frequency due to the Doppler effect. Fast electron momentum distributions are estimated from bremsstrahlung hard X ray spectra. These distributions indicate that the parallel momentum input to the fast electrons in the relativistic energy range from oblique EC waves is effective for efficient EC current drive. Current ramp-up is also observed in the second harmonic frequency range ω/Ωe ≁ 1.9-2.2. In this case, bulk electrons are heated as well as fast electrons and no definite cause of current ramp-up is clarified.",

author = "T. Maehara and S. Yoshimura and T. Minami and K. Hanada and M. Nakamura and T. Maekawa and Y. Terumichi",

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T1 - Electron cyclotron current drive in a lower hybrid current drive plasma

AU - Maehara, T.

AU - Yoshimura, S.

AU - Minami, T.

AU - Hanada, K.

AU - Nakamura, M.

AU - Maekawa, T.

AU - Terumichi, Y.

PY - 1998/1

Y1 - 1998/1

N2 - Electron cyclotron (EC) current drive experiments were carried out in lower hybrid current drive (LHCD) plasmas on the WT-3 tokamak. Using oblique injection of EC waves, plasma current is ramped up in a frequency range ω/Ωe ≃ 1.2-1.4, where Ωe is the EC frequency at the plasma centre. This ramp-up is ascribed to selective EC heating of fast electrons in LHCD plasmas via the fundamental EC resonance at the upshifted frequency due to the Doppler effect. Fast electron momentum distributions are estimated from bremsstrahlung hard X ray spectra. These distributions indicate that the parallel momentum input to the fast electrons in the relativistic energy range from oblique EC waves is effective for efficient EC current drive. Current ramp-up is also observed in the second harmonic frequency range ω/Ωe ≁ 1.9-2.2. In this case, bulk electrons are heated as well as fast electrons and no definite cause of current ramp-up is clarified.

AB - Electron cyclotron (EC) current drive experiments were carried out in lower hybrid current drive (LHCD) plasmas on the WT-3 tokamak. Using oblique injection of EC waves, plasma current is ramped up in a frequency range ω/Ωe ≃ 1.2-1.4, where Ωe is the EC frequency at the plasma centre. This ramp-up is ascribed to selective EC heating of fast electrons in LHCD plasmas via the fundamental EC resonance at the upshifted frequency due to the Doppler effect. Fast electron momentum distributions are estimated from bremsstrahlung hard X ray spectra. These distributions indicate that the parallel momentum input to the fast electrons in the relativistic energy range from oblique EC waves is effective for efficient EC current drive. Current ramp-up is also observed in the second harmonic frequency range ω/Ωe ≁ 1.9-2.2. In this case, bulk electrons are heated as well as fast electrons and no definite cause of current ramp-up is clarified.

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Electron cyclotron current drive in a lower hybrid current drive plasma

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