Suppression of large edge localized modes with edge resonant magnetic fields in high confinement DIII-D plasmas

T. E. Evans; R. A. Moyer; J. G. Watkins; T. H. Osborne; P. R. Thomas; M. Becoulet; J. A. Boedo; E. J. Doyle; M. E. Fenstermacher; K. H. Finken; R. J. Groebner; M. Groth; J. H. Harris; G. L. Jackson; R. J. La Haye; C. J. Lasnier; S. Masuzaki; N. Ohyabu; D. G. Pretty; H. Reimerdes; T. L. Rhodes; D. L. Rudakov; M. J. Schaffer; M. R. Wade; G. Wang; W. P. West; L. Zeng

doi:10.1088/0029-5515/45/7/007

Suppression of large edge localized modes with edge resonant magnetic fields in high confinement DIII-D plasmas

T. E. Evans, R. A. Moyer, J. G. Watkins, T. H. Osborne, P. R. Thomas, M. Becoulet, J. A. Boedo, E. J. Doyle, M. E. Fenstermacher, K. H. Finken, R. J. Groebner, M. Groth, J. H. Harris, G. L. Jackson, R. J. La Haye, C. J. Lasnier, S. Masuzaki, N. Ohyabu, D. G. Pretty, H. ReimerdesT. L. Rhodes, D. L. Rudakov, M. J. Schaffer, M. R. Wade, G. Wang, W. P. West, L. Zeng

Fusion and Fission Energy and Science Di

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Abstract

Large sub-millisecond heat pulses due to Type-I edge localized modes (ELMs) have been eliminated reproducibly in DIII-D for periods approaching nine energy confinement times (τ_E) with small dc currents driven in a simple magnetic perturbation coil. The current required to eliminate all but a few isolated Type-I ELM impulses during a coil pulse is less than 0.4% of plasma current. Based on magnetic field line modelling, the perturbation fields resonate with plasma flux surfaces across most of the pedestal region (0.9 ≤ ψ_N ≤ 1.0) when q₉₅ ≤ 3.7 ± 0.2, creating small remnant magnetic islands surrounded by weakly stochastic field lines. The stored energy, β_N, H-mode quality factor and global energy confinement time are unaltered by the magnetic perturbation. Although some isolated ELMs occur during the coil pulse, long periods free of large Type-I ELMs (Δt > 4-6 τ_E) have been reproduced numerous times, on multiple experimental run days in high and intermediate triangularity plasmas, including cases matching the baseline ITER scenario 2 flux surface shape. In low triangularity, lower single null plasmas, with collisionalities near that expected in ITER, Type-I ELMs are replaced by small amplitude, high frequency Type-II-like ELMs and are often accompanied by one or more ELM-free periods approaching 1-2 τ_E. Large Type-I ELM impulses represent a severe constraint on the survivability of the divertor target plates in future burning plasma devices. Results presented in this paper demonstrate that non-axisymmetric edge magnetic perturbations provide a very attractive development path for active ELM control in future tokamaks such as ITER.

Original language	English
Pages (from-to)	595-607
Number of pages	13
Journal	Nuclear Fusion
Volume	45
Issue number	7
DOIs	https://doi.org/10.1088/0029-5515/45/7/007
State	Published - Jul 1 2005

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Evans, T. E., Moyer, R. A., Watkins, J. G., Osborne, T. H., Thomas, P. R., Becoulet, M., Boedo, J. A., Doyle, E. J., Fenstermacher, M. E., Finken, K. H., Groebner, R. J., Groth, M., Harris, J. H., Jackson, G. L., La Haye, R. J., Lasnier, C. J., Masuzaki, S., Ohyabu, N., Pretty, D. G., ... Zeng, L. (2005). Suppression of large edge localized modes with edge resonant magnetic fields in high confinement DIII-D plasmas. Nuclear Fusion, 45(7), 595-607. https://doi.org/10.1088/0029-5515/45/7/007

@article{9ea7ed1d3cde48feb095d5cccba67947,

title = "Suppression of large edge localized modes with edge resonant magnetic fields in high confinement DIII-D plasmas",

abstract = "Large sub-millisecond heat pulses due to Type-I edge localized modes (ELMs) have been eliminated reproducibly in DIII-D for periods approaching nine energy confinement times (τE) with small dc currents driven in a simple magnetic perturbation coil. The current required to eliminate all but a few isolated Type-I ELM impulses during a coil pulse is less than 0.4% of plasma current. Based on magnetic field line modelling, the perturbation fields resonate with plasma flux surfaces across most of the pedestal region (0.9 ≤ ψN ≤ 1.0) when q95 ≤ 3.7 ± 0.2, creating small remnant magnetic islands surrounded by weakly stochastic field lines. The stored energy, βN, H-mode quality factor and global energy confinement time are unaltered by the magnetic perturbation. Although some isolated ELMs occur during the coil pulse, long periods free of large Type-I ELMs (Δt > 4-6 τE) have been reproduced numerous times, on multiple experimental run days in high and intermediate triangularity plasmas, including cases matching the baseline ITER scenario 2 flux surface shape. In low triangularity, lower single null plasmas, with collisionalities near that expected in ITER, Type-I ELMs are replaced by small amplitude, high frequency Type-II-like ELMs and are often accompanied by one or more ELM-free periods approaching 1-2 τE. Large Type-I ELM impulses represent a severe constraint on the survivability of the divertor target plates in future burning plasma devices. Results presented in this paper demonstrate that non-axisymmetric edge magnetic perturbations provide a very attractive development path for active ELM control in future tokamaks such as ITER.",

author = "Evans, {T. E.} and Moyer, {R. A.} and Watkins, {J. G.} and Osborne, {T. H.} and Thomas, {P. R.} and M. Becoulet and Boedo, {J. A.} and Doyle, {E. J.} and Fenstermacher, {M. E.} and Finken, {K. H.} and Groebner, {R. J.} and M. Groth and Harris, {J. H.} and Jackson, {G. L.} and {La Haye}, {R. J.} and Lasnier, {C. J.} and S. Masuzaki and N. Ohyabu and Pretty, {D. G.} and H. Reimerdes and Rhodes, {T. L.} and Rudakov, {D. L.} and Schaffer, {M. J.} and Wade, {M. R.} and G. Wang and West, {W. P.} and L. Zeng",

year = "2005",

month = jul,

day = "1",

doi = "10.1088/0029-5515/45/7/007",

language = "English",

volume = "45",

pages = "595--607",

journal = "Nuclear Fusion",

issn = "0029-5515",

publisher = "IOP Publishing",

number = "7",

}

Evans, TE, Moyer, RA, Watkins, JG, Osborne, TH, Thomas, PR, Becoulet, M, Boedo, JA, Doyle, EJ, Fenstermacher, ME, Finken, KH, Groebner, RJ, Groth, M, Harris, JH, Jackson, GL, La Haye, RJ, Lasnier, CJ, Masuzaki, S, Ohyabu, N, Pretty, DG, Reimerdes, H, Rhodes, TL, Rudakov, DL, Schaffer, MJ, Wade, MR, Wang, G, West, WP & Zeng, L 2005, 'Suppression of large edge localized modes with edge resonant magnetic fields in high confinement DIII-D plasmas', Nuclear Fusion, vol. 45, no. 7, pp. 595-607. https://doi.org/10.1088/0029-5515/45/7/007

TY - JOUR

T1 - Suppression of large edge localized modes with edge resonant magnetic fields in high confinement DIII-D plasmas

AU - Evans, T. E.

AU - Moyer, R. A.

AU - Watkins, J. G.

AU - Osborne, T. H.

AU - Thomas, P. R.

AU - Becoulet, M.

AU - Boedo, J. A.

AU - Doyle, E. J.

AU - Fenstermacher, M. E.

AU - Finken, K. H.

AU - Groebner, R. J.

AU - Groth, M.

AU - Harris, J. H.

AU - Jackson, G. L.

AU - La Haye, R. J.

AU - Lasnier, C. J.

AU - Masuzaki, S.

AU - Ohyabu, N.

AU - Pretty, D. G.

AU - Reimerdes, H.

AU - Rhodes, T. L.

AU - Rudakov, D. L.

AU - Schaffer, M. J.

AU - Wade, M. R.

AU - Wang, G.

AU - West, W. P.

AU - Zeng, L.

PY - 2005/7/1

Y1 - 2005/7/1

N2 - Large sub-millisecond heat pulses due to Type-I edge localized modes (ELMs) have been eliminated reproducibly in DIII-D for periods approaching nine energy confinement times (τE) with small dc currents driven in a simple magnetic perturbation coil. The current required to eliminate all but a few isolated Type-I ELM impulses during a coil pulse is less than 0.4% of plasma current. Based on magnetic field line modelling, the perturbation fields resonate with plasma flux surfaces across most of the pedestal region (0.9 ≤ ψN ≤ 1.0) when q95 ≤ 3.7 ± 0.2, creating small remnant magnetic islands surrounded by weakly stochastic field lines. The stored energy, βN, H-mode quality factor and global energy confinement time are unaltered by the magnetic perturbation. Although some isolated ELMs occur during the coil pulse, long periods free of large Type-I ELMs (Δt > 4-6 τE) have been reproduced numerous times, on multiple experimental run days in high and intermediate triangularity plasmas, including cases matching the baseline ITER scenario 2 flux surface shape. In low triangularity, lower single null plasmas, with collisionalities near that expected in ITER, Type-I ELMs are replaced by small amplitude, high frequency Type-II-like ELMs and are often accompanied by one or more ELM-free periods approaching 1-2 τE. Large Type-I ELM impulses represent a severe constraint on the survivability of the divertor target plates in future burning plasma devices. Results presented in this paper demonstrate that non-axisymmetric edge magnetic perturbations provide a very attractive development path for active ELM control in future tokamaks such as ITER.

AB - Large sub-millisecond heat pulses due to Type-I edge localized modes (ELMs) have been eliminated reproducibly in DIII-D for periods approaching nine energy confinement times (τE) with small dc currents driven in a simple magnetic perturbation coil. The current required to eliminate all but a few isolated Type-I ELM impulses during a coil pulse is less than 0.4% of plasma current. Based on magnetic field line modelling, the perturbation fields resonate with plasma flux surfaces across most of the pedestal region (0.9 ≤ ψN ≤ 1.0) when q95 ≤ 3.7 ± 0.2, creating small remnant magnetic islands surrounded by weakly stochastic field lines. The stored energy, βN, H-mode quality factor and global energy confinement time are unaltered by the magnetic perturbation. Although some isolated ELMs occur during the coil pulse, long periods free of large Type-I ELMs (Δt > 4-6 τE) have been reproduced numerous times, on multiple experimental run days in high and intermediate triangularity plasmas, including cases matching the baseline ITER scenario 2 flux surface shape. In low triangularity, lower single null plasmas, with collisionalities near that expected in ITER, Type-I ELMs are replaced by small amplitude, high frequency Type-II-like ELMs and are often accompanied by one or more ELM-free periods approaching 1-2 τE. Large Type-I ELM impulses represent a severe constraint on the survivability of the divertor target plates in future burning plasma devices. Results presented in this paper demonstrate that non-axisymmetric edge magnetic perturbations provide a very attractive development path for active ELM control in future tokamaks such as ITER.

UR - http://www.scopus.com/inward/record.url?scp=22644438981&partnerID=8YFLogxK

U2 - 10.1088/0029-5515/45/7/007

DO - 10.1088/0029-5515/45/7/007

M3 - Article

AN - SCOPUS:22644438981

SN - 0029-5515

VL - 45

SP - 595

EP - 607

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 7

ER -

Suppression of large edge localized modes with edge resonant magnetic fields in high confinement DIII-D plasmas

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