Enhanced particle confinement and turbulence reduction due to E×B shear in the TEXTOR tokamak

J. Boedo; D. Gray; S. Jachmich; R. Conn; G. P. Terry; G. Tynan; G. Van Oost; R. R. Weynants

doi:10.1088/0029-5515/40/7/309

Enhanced particle confinement and turbulence reduction due to E×B shear in the TEXTOR tokamak

J. Boedo, D. Gray, S. Jachmich, R. Conn, G. P. Terry, G. Tynan, G. Van Oost, R. R. Weynants

Laboratory for Plasma Physics

Research output: Contribution to journal › Article › peer-review

Abstract

Positive radial electric fields have been created at the edge of the TEXTOR tokamak plasma using an electrode. The electric field induces a thin (δ_r to approximately 1.5 cm), E×B driven layer at the edge rotating poloidally at 12-20 km/s and featuring high shear. Concomitant changes in the density and poloidal electric field fluctuations and their cross-phase in the shear layer result in suppression of radial turbulent particle transport, even at low radial electric field strength. Temperature fluctuations are reduced, resulting in diminished turbulent heat flux. As turbulent particle transport is quenched, the particle confinement time τ_p increases by a factor of 2 and the energy confinement time τ_E by 20%. Turbulent transport accounts for approximately 50% of the total particle flux. Both the cross-phase and the density fluctuations are sensitive to the sign of ▽E_r.

Original language	English
Pages (from-to)	1397-1410
Number of pages	14
Journal	Nuclear Fusion
Volume	40
Issue number	7
DOIs	https://doi.org/10.1088/0029-5515/40/7/309
Publication status	Published - Jul 2000

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abstract = "Positive radial electric fields have been created at the edge of the TEXTOR tokamak plasma using an electrode. The electric field induces a thin (δr to approximately 1.5 cm), E×B driven layer at the edge rotating poloidally at 12-20 km/s and featuring high shear. Concomitant changes in the density and poloidal electric field fluctuations and their cross-phase in the shear layer result in suppression of radial turbulent particle transport, even at low radial electric field strength. Temperature fluctuations are reduced, resulting in diminished turbulent heat flux. As turbulent particle transport is quenched, the particle confinement time τp increases by a factor of 2 and the energy confinement time τE by 20%. Turbulent transport accounts for approximately 50% of the total particle flux. Both the cross-phase and the density fluctuations are sensitive to the sign of ▽Er.",

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AU - Boedo, J.

AU - Gray, D.

AU - Jachmich, S.

AU - Conn, R.

AU - Terry, G. P.

AU - Tynan, G.

AU - Van Oost, G.

AU - Weynants, R. R.

PY - 2000/7

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AB - Positive radial electric fields have been created at the edge of the TEXTOR tokamak plasma using an electrode. The electric field induces a thin (δr to approximately 1.5 cm), E×B driven layer at the edge rotating poloidally at 12-20 km/s and featuring high shear. Concomitant changes in the density and poloidal electric field fluctuations and their cross-phase in the shear layer result in suppression of radial turbulent particle transport, even at low radial electric field strength. Temperature fluctuations are reduced, resulting in diminished turbulent heat flux. As turbulent particle transport is quenched, the particle confinement time τp increases by a factor of 2 and the energy confinement time τE by 20%. Turbulent transport accounts for approximately 50% of the total particle flux. Both the cross-phase and the density fluctuations are sensitive to the sign of ▽Er.

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Enhanced particle confinement and turbulence reduction due to E×B shear in the TEXTOR tokamak

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