Safety factor profile requirements for electron ITB formation in TCV

T. P. Goodman; R. Behn; Y. Camenen; S. Coda; E. Fable; M. A. Henderson; P. Nikkola; J. Rossel; O. Sauter; A. Scarabosio; C. Zucca; S. Alberti; P. Amorim; Y. Andrèbe; K. Appert; G. Arnoux; A. Bortolon; A. Bottino; R. Chavan; I. Condrea; E. Droz; B. P. Duval; P. Etienne; D. Fasel; A. Fasoli; B. Gulejová; J. P. Hogge; J. Horacek; P. F. Isoz; B. Joye; A. Karpushov; S. H. Kim; I. Klimanov; P. Lavanchy; J. B. Lister; X. Llobet; T. Madeira; J. C. Magnin; A. Marinoni; J. Márki; B. Marlétaz; P. Marmillod; Y. Martin; An Martynov; M. Maslov; J. M. Mayor; J. M. Moret; A. Mück; P. J. Paris; I. Pavlov; A. Perez; R. A. Pitts; A. Pochelon; L. Porte; Ch Schlatter; K. Schombourg; H. Shidara; M. Siegrist; U. Siravo; A. V. Sushkov; G. Tonetti; M. Q. Tran; H. Weisen; M. Wischmeier; A. Zabolotsky; G. Zhuang; A. Zhuchkova

doi:10.1088/0741-3335/47/12B/S09

Safety factor profile requirements for electron ITB formation in TCV

T. P. Goodman
, R. Behn
, Y. Camenen
, S. Coda
, E. Fable
, M. A. Henderson
, P. Nikkola
, J. Rossel
, O. Sauter
, A. Scarabosio
, C. Zucca
, S. Alberti
, P. Amorim
, Y. Andrèbe
, K. Appert
, G. Arnoux
, A. Bortolon
, A. Bottino
, R. Chavan
, I. Condrea

E. Droz, B. P. Duval, P. Etienne, D. Fasel, A. Fasoli, B. Gulejová, J. P. Hogge, J. Horacek, P. F. Isoz, B. Joye, A. Karpushov, S. H. Kim, I. Klimanov, P. Lavanchy, J. B. Lister, X. Llobet, T. Madeira, J. C. Magnin, A. Marinoni, J. Márki, B. Marlétaz, P. Marmillod, Y. Martin, An Martynov, M. Maslov, J. M. Mayor, J. M. Moret, A. Mück, P. J. Paris, I. Pavlov, A. Perez, R. A. Pitts, A. Pochelon, L. Porte, Ch Schlatter, K. Schombourg, H. Shidara, M. Siegrist, U. Siravo, A. V. Sushkov, G. Tonetti, M. Q. Tran, H. Weisen, M. Wischmeier, A. Zabolotsky, G. Zhuang, A. Zhuchkova

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

28 Scopus citations

Abstract

On the Tokamak à Configuration Variable (TCV), electron internal transport barriers (eITBs) can be formed during a gradual evolution from a centrally peaked to a hollow current profile while all external actuators are held constant. The formation occurs rapidly (<τ_eE) and locally and, according to ASTRA modelling, is consistent with the appearance of a local minimum in the safety factor (q) profile. The eITB is sustained by non-inductively driven currents (including the off-axis bootstrap current) for many current redistribution times while the current in the tokamak transformer is held constant. The maximum duration is limited by the pulse length of the gyrotrons. The transformer coil can be used as a counter (or co-) current source with negligible accompanying input power. In established eITBs the performance can be enhanced (degraded) by altering solely the central current or q-profile. New experiments show that the same stationary eITB performance can be reached starting from discharges with centrally peaked current. A fine scan in surface voltage shows a smooth increase in performance and no sudden improvement with voltage despite the fact that q_min must pass through several low-order rational values. The appearance, in some cases, of magnetic islands simultaneously with that of the eITB provides a new constraint on the simulation of the q-profiles.

Original language	English (US)
Pages (from-to)	B107-B120
Journal	Plasma Physics and Controlled Fusion
Volume	47
Issue number	12 B
DOIs	https://doi.org/10.1088/0741-3335/47/12B/S09
State	Published - Dec 1 2005
Externally published	Yes

All Science Journal Classification (ASJC) codes

Nuclear Energy and Engineering
Condensed Matter Physics

Access to Document

10.1088/0741-3335/47/12B/S09

Cite this

Goodman, T. P., Behn, R., Camenen, Y., Coda, S., Fable, E., Henderson, M. A., Nikkola, P., Rossel, J., Sauter, O., Scarabosio, A., Zucca, C., Alberti, S., Amorim, P., Andrèbe, Y., Appert, K., Arnoux, G., Bortolon, A., Bottino, A., Chavan, R., ... Zhuchkova, A. (2005). Safety factor profile requirements for electron ITB formation in TCV. Plasma Physics and Controlled Fusion, 47(12 B), B107-B120. https://doi.org/10.1088/0741-3335/47/12B/S09

@article{0c2801860d6e4f7485339bb249cac919,

title = "Safety factor profile requirements for electron ITB formation in TCV",

abstract = "On the Tokamak {\`a} Configuration Variable (TCV), electron internal transport barriers (eITBs) can be formed during a gradual evolution from a centrally peaked to a hollow current profile while all external actuators are held constant. The formation occurs rapidly (<τeE) and locally and, according to ASTRA modelling, is consistent with the appearance of a local minimum in the safety factor (q) profile. The eITB is sustained by non-inductively driven currents (including the off-axis bootstrap current) for many current redistribution times while the current in the tokamak transformer is held constant. The maximum duration is limited by the pulse length of the gyrotrons. The transformer coil can be used as a counter (or co-) current source with negligible accompanying input power. In established eITBs the performance can be enhanced (degraded) by altering solely the central current or q-profile. New experiments show that the same stationary eITB performance can be reached starting from discharges with centrally peaked current. A fine scan in surface voltage shows a smooth increase in performance and no sudden improvement with voltage despite the fact that qmin must pass through several low-order rational values. The appearance, in some cases, of magnetic islands simultaneously with that of the eITB provides a new constraint on the simulation of the q-profiles.",

author = "Goodman, \{T. P.\} and R. Behn and Y. Camenen and S. Coda and E. Fable and Henderson, \{M. A.\} and P. Nikkola and J. Rossel and O. Sauter and A. Scarabosio and C. Zucca and S. Alberti and P. Amorim and Y. Andr{\`e}be and K. Appert and G. Arnoux and A. Bortolon and A. Bottino and R. Chavan and I. Condrea and E. Droz and Duval, \{B. P.\} and P. Etienne and D. Fasel and A. Fasoli and B. Gulejov{\'a} and Hogge, \{J. P.\} and J. Horacek and Isoz, \{P. F.\} and B. Joye and A. Karpushov and Kim, \{S. H.\} and I. Klimanov and P. Lavanchy and Lister, \{J. B.\} and X. Llobet and T. Madeira and Magnin, \{J. C.\} and A. Marinoni and J. M{\'a}rki and B. Marl{\'e}taz and P. Marmillod and Y. Martin and An Martynov and M. Maslov and Mayor, \{J. M.\} and Moret, \{J. M.\} and A. M{\"u}ck and Paris, \{P. J.\} and I. Pavlov and A. Perez and Pitts, \{R. A.\} and A. Pochelon and L. Porte and Ch Schlatter and K. Schombourg and H. Shidara and M. Siegrist and U. Siravo and Sushkov, \{A. V.\} and G. Tonetti and Tran, \{M. Q.\} and H. Weisen and M. Wischmeier and A. Zabolotsky and G. Zhuang and A. Zhuchkova",

year = "2005",

month = dec,

day = "1",

doi = "10.1088/0741-3335/47/12B/S09",

language = "English (US)",

volume = "47",

pages = "B107--B120",

journal = "Plasma Physics and Controlled Fusion",

issn = "0741-3335",

publisher = "IOP Publishing Ltd.",

number = "12 B",

}

Goodman, TP, Behn, R, Camenen, Y, Coda, S, Fable, E, Henderson, MA, Nikkola, P, Rossel, J, Sauter, O, Scarabosio, A, Zucca, C, Alberti, S, Amorim, P, Andrèbe, Y, Appert, K, Arnoux, G, Bortolon, A, Bottino, A, Chavan, R, Condrea, I, Droz, E, Duval, BP, Etienne, P, Fasel, D, Fasoli, A, Gulejová, B, Hogge, JP, Horacek, J, Isoz, PF, Joye, B, Karpushov, A, Kim, SH, Klimanov, I, Lavanchy, P, Lister, JB, Llobet, X, Madeira, T, Magnin, JC, Marinoni, A, Márki, J, Marlétaz, B, Marmillod, P, Martin, Y, Martynov, A, Maslov, M, Mayor, JM, Moret, JM, Mück, A, Paris, PJ, Pavlov, I, Perez, A, Pitts, RA, Pochelon, A, Porte, L, Schlatter, C, Schombourg, K, Shidara, H, Siegrist, M, Siravo, U, Sushkov, AV, Tonetti, G, Tran, MQ, Weisen, H, Wischmeier, M, Zabolotsky, A, Zhuang, G & Zhuchkova, A 2005, 'Safety factor profile requirements for electron ITB formation in TCV', Plasma Physics and Controlled Fusion, vol. 47, no. 12 B, pp. B107-B120. https://doi.org/10.1088/0741-3335/47/12B/S09

TY - JOUR

T1 - Safety factor profile requirements for electron ITB formation in TCV

AU - Goodman, T. P.

AU - Behn, R.

AU - Camenen, Y.

AU - Coda, S.

AU - Fable, E.

AU - Henderson, M. A.

AU - Nikkola, P.

AU - Rossel, J.

AU - Sauter, O.

AU - Scarabosio, A.

AU - Zucca, C.

AU - Alberti, S.

AU - Amorim, P.

AU - Andrèbe, Y.

AU - Appert, K.

AU - Arnoux, G.

AU - Bortolon, A.

AU - Bottino, A.

AU - Chavan, R.

AU - Condrea, I.

AU - Droz, E.

AU - Duval, B. P.

AU - Etienne, P.

AU - Fasel, D.

AU - Fasoli, A.

AU - Gulejová, B.

AU - Hogge, J. P.

AU - Horacek, J.

AU - Isoz, P. F.

AU - Joye, B.

AU - Karpushov, A.

AU - Kim, S. H.

AU - Klimanov, I.

AU - Lavanchy, P.

AU - Lister, J. B.

AU - Llobet, X.

AU - Madeira, T.

AU - Magnin, J. C.

AU - Marinoni, A.

AU - Márki, J.

AU - Marlétaz, B.

AU - Marmillod, P.

AU - Martin, Y.

AU - Martynov, An

AU - Maslov, M.

AU - Mayor, J. M.

AU - Moret, J. M.

AU - Mück, A.

AU - Paris, P. J.

AU - Pavlov, I.

AU - Perez, A.

AU - Pitts, R. A.

AU - Pochelon, A.

AU - Porte, L.

AU - Schlatter, Ch

AU - Schombourg, K.

AU - Shidara, H.

AU - Siegrist, M.

AU - Siravo, U.

AU - Sushkov, A. V.

AU - Tonetti, G.

AU - Tran, M. Q.

AU - Weisen, H.

AU - Wischmeier, M.

AU - Zabolotsky, A.

AU - Zhuang, G.

AU - Zhuchkova, A.

PY - 2005/12/1

Y1 - 2005/12/1

N2 - On the Tokamak à Configuration Variable (TCV), electron internal transport barriers (eITBs) can be formed during a gradual evolution from a centrally peaked to a hollow current profile while all external actuators are held constant. The formation occurs rapidly (<τeE) and locally and, according to ASTRA modelling, is consistent with the appearance of a local minimum in the safety factor (q) profile. The eITB is sustained by non-inductively driven currents (including the off-axis bootstrap current) for many current redistribution times while the current in the tokamak transformer is held constant. The maximum duration is limited by the pulse length of the gyrotrons. The transformer coil can be used as a counter (or co-) current source with negligible accompanying input power. In established eITBs the performance can be enhanced (degraded) by altering solely the central current or q-profile. New experiments show that the same stationary eITB performance can be reached starting from discharges with centrally peaked current. A fine scan in surface voltage shows a smooth increase in performance and no sudden improvement with voltage despite the fact that qmin must pass through several low-order rational values. The appearance, in some cases, of magnetic islands simultaneously with that of the eITB provides a new constraint on the simulation of the q-profiles.

AB - On the Tokamak à Configuration Variable (TCV), electron internal transport barriers (eITBs) can be formed during a gradual evolution from a centrally peaked to a hollow current profile while all external actuators are held constant. The formation occurs rapidly (<τeE) and locally and, according to ASTRA modelling, is consistent with the appearance of a local minimum in the safety factor (q) profile. The eITB is sustained by non-inductively driven currents (including the off-axis bootstrap current) for many current redistribution times while the current in the tokamak transformer is held constant. The maximum duration is limited by the pulse length of the gyrotrons. The transformer coil can be used as a counter (or co-) current source with negligible accompanying input power. In established eITBs the performance can be enhanced (degraded) by altering solely the central current or q-profile. New experiments show that the same stationary eITB performance can be reached starting from discharges with centrally peaked current. A fine scan in surface voltage shows a smooth increase in performance and no sudden improvement with voltage despite the fact that qmin must pass through several low-order rational values. The appearance, in some cases, of magnetic islands simultaneously with that of the eITB provides a new constraint on the simulation of the q-profiles.

UR - https://www.scopus.com/pages/publications/27744440471

UR - https://www.scopus.com/pages/publications/27744440471#tab=citedBy

U2 - 10.1088/0741-3335/47/12B/S09

DO - 10.1088/0741-3335/47/12B/S09

M3 - Article

AN - SCOPUS:27744440471

SN - 0741-3335

VL - 47

SP - B107-B120

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 12 B

ER -

Safety factor profile requirements for electron ITB formation in TCV

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