Validation of on- and off-axis neutral beam current drive against experiment in DIII-Da

J. M. Park; M. Murakami; C. C. Petty; W. W. Heidbrink; T. H. Osborne; C. T. Holcomb; M. A. Van Zeeland; R. Prater; T. C. Luce; M. R. Wade; M. E. Austin; N. H. Brooks; R. V. Budny; C. D. Challis; J. C. Deboo; J. S. Degrassie; J. R. Ferron; P. Gohil; J. Hobirk; E. M. Hollmann; R. M. Hong; A. W. Hyatt; J. Lohr; M. J. Lanctot; M. A. Makowski; D. C. McCune; P. A. Politzer; H. E. St John; T. Suzuki; W. P. West; E. A. Unterberg; J. H. Yu

doi:10.1063/1.3213614

Validation of on- and off-axis neutral beam current drive against experiment in DIII-D^a

J. M. Park, M. Murakami, C. C. Petty, W. W. Heidbrink, T. H. Osborne, C. T. Holcomb, M. A. Van Zeeland, R. Prater, T. C. Luce, M. R. Wade, M. E. Austin, N. H. Brooks, R. V. Budny, C. D. Challis, J. C. Deboo, J. S. Degrassie, J. R. Ferron, P. Gohil, J. Hobirk, E. M. HollmannR. M. Hong, A. W. Hyatt, J. Lohr, M. J. Lanctot, M. A. Makowski, D. C. McCune, P. A. Politzer, H. E. St John, T. Suzuki, W. P. West, E. A. Unterberg, J. H. Yu

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Abstract

Neutral beam current drive (NBCD) experiments in DIII-D using vertically shifted plasmas to move the current drive away from the axis have clearly demonstrated robust off-axis NBCD. Time-dependent measurements of magnetic field pitch angles by the motional Stark effect diagnostic are used to obtain the evolution of the poloidal magnetic flux, which indicates a broad off-axis NBCD profile with a peak at about half the plasma minor radius. In most cases, the measured off-axis NBCD profile is consistent with calculations using an orbit-following Monte Carlo code for the beam ion slowing down including finite-orbit effects provided there is no large-scale magnetohydrodynamic activity such as Alfv́n eigenmodes modes or sawteeth. An alternative analysis method shows good agreement between the measured pitch angles and those from simulations using transport-equilibrium codes. Two-dimensional image of Doppler-shifted fast ion D_α light emitted by neutralized energetic ions shows clear evidence for a hollow profile of beam ion density, consistent with classical beam ion slowing down. The magnitude of off-axis NBCD is sensitive to the alignment of the beam injection relative to the helical pitch of the magnetic field lines. If the signs of toroidal magnetic field and plasma current yield the proper helicity, both measurement and calculation indicate that the efficiency is as good as on-axis NBCD because the increased fraction of trapped electrons reduces the electron shielding of the injected ion current, in contrast with electron current drive schemes where the trapping of electrons degrades the efficiency. The measured off-axis NBCD increases approximately linearly with the injection power, although a modest amount of fast ion diffusion is needed to explain an observed difference in the NBCD profile between the measurement and the calculation at high injection power.

Original language	English
Article number	092508
Journal	Physics of Plasmas
Volume	16
Issue number	9
DOIs	https://doi.org/10.1063/1.3213614
State	Published - 2009

Funding

This work was supported in part by the U.S. Department of Energy under Contract Nos. DE-AC05-00OR22725, DE-FC02-04ER54698, SC-G903402, DE-FG03-97ER54415, DE-AC02-76CH03073, DE-AC52-07NA27344, DE-FG02-07ER54917, DE-FG02-89ER53297, and DE-AC05-06OR23100.

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Park, J. M., Murakami, M., Petty, C. C., Heidbrink, W. W., Osborne, T. H., Holcomb, C. T., Van Zeeland, M. A., Prater, R., Luce, T. C., Wade, M. R., Austin, M. E., Brooks, N. H., Budny, R. V., Challis, C. D., Deboo, J. C., Degrassie, J. S., Ferron, J. R., Gohil, P., Hobirk, J., ... Yu, J. H. (2009). Validation of on- and off-axis neutral beam current drive against experiment in DIII-D^a. Physics of Plasmas, 16(9), Article 092508. https://doi.org/10.1063/1.3213614

@article{33469222610645408fd44f9c86761955,

title = "Validation of on- and off-axis neutral beam current drive against experiment in DIII-Da",

abstract = "Neutral beam current drive (NBCD) experiments in DIII-D using vertically shifted plasmas to move the current drive away from the axis have clearly demonstrated robust off-axis NBCD. Time-dependent measurements of magnetic field pitch angles by the motional Stark effect diagnostic are used to obtain the evolution of the poloidal magnetic flux, which indicates a broad off-axis NBCD profile with a peak at about half the plasma minor radius. In most cases, the measured off-axis NBCD profile is consistent with calculations using an orbit-following Monte Carlo code for the beam ion slowing down including finite-orbit effects provided there is no large-scale magnetohydrodynamic activity such as Alf{\'v}n eigenmodes modes or sawteeth. An alternative analysis method shows good agreement between the measured pitch angles and those from simulations using transport-equilibrium codes. Two-dimensional image of Doppler-shifted fast ion Dα light emitted by neutralized energetic ions shows clear evidence for a hollow profile of beam ion density, consistent with classical beam ion slowing down. The magnitude of off-axis NBCD is sensitive to the alignment of the beam injection relative to the helical pitch of the magnetic field lines. If the signs of toroidal magnetic field and plasma current yield the proper helicity, both measurement and calculation indicate that the efficiency is as good as on-axis NBCD because the increased fraction of trapped electrons reduces the electron shielding of the injected ion current, in contrast with electron current drive schemes where the trapping of electrons degrades the efficiency. The measured off-axis NBCD increases approximately linearly with the injection power, although a modest amount of fast ion diffusion is needed to explain an observed difference in the NBCD profile between the measurement and the calculation at high injection power.",

author = "Park, {J. M.} and M. Murakami and Petty, {C. C.} and Heidbrink, {W. W.} and Osborne, {T. H.} and Holcomb, {C. T.} and {Van Zeeland}, {M. A.} and R. Prater and Luce, {T. C.} and Wade, {M. R.} and Austin, {M. E.} and Brooks, {N. H.} and Budny, {R. V.} and Challis, {C. D.} and Deboo, {J. C.} and Degrassie, {J. S.} and Ferron, {J. R.} and P. Gohil and J. Hobirk and Hollmann, {E. M.} and Hong, {R. M.} and Hyatt, {A. W.} and J. Lohr and Lanctot, {M. J.} and Makowski, {M. A.} and McCune, {D. C.} and Politzer, {P. A.} and {St John}, {H. E.} and T. Suzuki and West, {W. P.} and Unterberg, {E. A.} and Yu, {J. H.}",

year = "2009",

doi = "10.1063/1.3213614",

language = "English",

volume = "16",

journal = "Physics of Plasmas",

issn = "1070-664X",

publisher = "American Institute of Physics",

number = "9",

}

Park, JM, Murakami, M, Petty, CC, Heidbrink, WW, Osborne, TH, Holcomb, CT, Van Zeeland, MA, Prater, R, Luce, TC, Wade, MR, Austin, ME, Brooks, NH, Budny, RV, Challis, CD, Deboo, JC, Degrassie, JS, Ferron, JR, Gohil, P, Hobirk, J, Hollmann, EM, Hong, RM, Hyatt, AW, Lohr, J, Lanctot, MJ, Makowski, MA, McCune, DC, Politzer, PA, St John, HE, Suzuki, T, West, WP, Unterberg, EA & Yu, JH 2009, 'Validation of on- and off-axis neutral beam current drive against experiment in DIII-D^a', Physics of Plasmas, vol. 16, no. 9, 092508. https://doi.org/10.1063/1.3213614

TY - JOUR

T1 - Validation of on- and off-axis neutral beam current drive against experiment in DIII-Da

AU - Park, J. M.

AU - Murakami, M.

AU - Petty, C. C.

AU - Heidbrink, W. W.

AU - Osborne, T. H.

AU - Holcomb, C. T.

AU - Van Zeeland, M. A.

AU - Prater, R.

AU - Luce, T. C.

AU - Wade, M. R.

AU - Austin, M. E.

AU - Brooks, N. H.

AU - Budny, R. V.

AU - Challis, C. D.

AU - Deboo, J. C.

AU - Degrassie, J. S.

AU - Ferron, J. R.

AU - Gohil, P.

AU - Hobirk, J.

AU - Hollmann, E. M.

AU - Hong, R. M.

AU - Hyatt, A. W.

AU - Lohr, J.

AU - Lanctot, M. J.

AU - Makowski, M. A.

AU - McCune, D. C.

AU - Politzer, P. A.

AU - St John, H. E.

AU - Suzuki, T.

AU - West, W. P.

AU - Unterberg, E. A.

AU - Yu, J. H.

PY - 2009

Y1 - 2009

N2 - Neutral beam current drive (NBCD) experiments in DIII-D using vertically shifted plasmas to move the current drive away from the axis have clearly demonstrated robust off-axis NBCD. Time-dependent measurements of magnetic field pitch angles by the motional Stark effect diagnostic are used to obtain the evolution of the poloidal magnetic flux, which indicates a broad off-axis NBCD profile with a peak at about half the plasma minor radius. In most cases, the measured off-axis NBCD profile is consistent with calculations using an orbit-following Monte Carlo code for the beam ion slowing down including finite-orbit effects provided there is no large-scale magnetohydrodynamic activity such as Alfv́n eigenmodes modes or sawteeth. An alternative analysis method shows good agreement between the measured pitch angles and those from simulations using transport-equilibrium codes. Two-dimensional image of Doppler-shifted fast ion Dα light emitted by neutralized energetic ions shows clear evidence for a hollow profile of beam ion density, consistent with classical beam ion slowing down. The magnitude of off-axis NBCD is sensitive to the alignment of the beam injection relative to the helical pitch of the magnetic field lines. If the signs of toroidal magnetic field and plasma current yield the proper helicity, both measurement and calculation indicate that the efficiency is as good as on-axis NBCD because the increased fraction of trapped electrons reduces the electron shielding of the injected ion current, in contrast with electron current drive schemes where the trapping of electrons degrades the efficiency. The measured off-axis NBCD increases approximately linearly with the injection power, although a modest amount of fast ion diffusion is needed to explain an observed difference in the NBCD profile between the measurement and the calculation at high injection power.

AB - Neutral beam current drive (NBCD) experiments in DIII-D using vertically shifted plasmas to move the current drive away from the axis have clearly demonstrated robust off-axis NBCD. Time-dependent measurements of magnetic field pitch angles by the motional Stark effect diagnostic are used to obtain the evolution of the poloidal magnetic flux, which indicates a broad off-axis NBCD profile with a peak at about half the plasma minor radius. In most cases, the measured off-axis NBCD profile is consistent with calculations using an orbit-following Monte Carlo code for the beam ion slowing down including finite-orbit effects provided there is no large-scale magnetohydrodynamic activity such as Alfv́n eigenmodes modes or sawteeth. An alternative analysis method shows good agreement between the measured pitch angles and those from simulations using transport-equilibrium codes. Two-dimensional image of Doppler-shifted fast ion Dα light emitted by neutralized energetic ions shows clear evidence for a hollow profile of beam ion density, consistent with classical beam ion slowing down. The magnitude of off-axis NBCD is sensitive to the alignment of the beam injection relative to the helical pitch of the magnetic field lines. If the signs of toroidal magnetic field and plasma current yield the proper helicity, both measurement and calculation indicate that the efficiency is as good as on-axis NBCD because the increased fraction of trapped electrons reduces the electron shielding of the injected ion current, in contrast with electron current drive schemes where the trapping of electrons degrades the efficiency. The measured off-axis NBCD increases approximately linearly with the injection power, although a modest amount of fast ion diffusion is needed to explain an observed difference in the NBCD profile between the measurement and the calculation at high injection power.

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U2 - 10.1063/1.3213614

DO - 10.1063/1.3213614

M3 - Article

AN - SCOPUS:67649504879

SN - 1070-664X

VL - 16

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 9

M1 - 092508

ER -

Validation of on- and off-axis neutral beam current drive against experiment in DIII-D^a

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