Interaction of ICRF fields with the plasma boundary in AUG and JET and guidelines for antenna optimization

V. Bobkov; R. Bilato; F. Braun; L. Colas; R. Dux; D. Van Eester; L. Giannone; M. Goniche; A. Herrmann; P. Jacquet; A. Kallenbach; A. Krivska; E. Lerche; M. L. Mayoral; D. Milanesio; I. Monakhov; H. W. Müller; R. Neu; J. M. Noterdaeme; Th Pütterich; V. Rohde

doi:10.1063/1.3273710

Interaction of ICRF fields with the plasma boundary in AUG and JET and guidelines for antenna optimization

V. Bobkov, R. Bilato, F. Braun, L. Colas, R. Dux, D. Van Eester, L. Giannone, M. Goniche, A. Herrmann, P. Jacquet, A. Kallenbach, A. Krivska, E. Lerche, M. L. Mayoral, D. Milanesio, I. Monakhov, H. W. Müller, R. Neu, J. M. Noterdaeme, Th PütterichV. Rohde

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

13 Zitate (Scopus)

Abstract

W sputtering during ICRF on ASDEX Upgrade (AUG) and temperature rise on JET A2 antenna septa are considered in connection with plasma conditions at the antenna plasma facing components and E_∥ near-fields. Large antenna-plasma clearance, high gas puff and low light impurity content are favorable to reduce W sputtering in AUG. The spatial distribution of spectroscopically measured effective W sputtering yields clearly points to the existence of strong E_∥ fields at the antenna box ("feeder fields") which dominate over the fields in front of the antenna straps. The picture of E_∥ fields, obtained by HFSS code, corroborates the dominant role of E_∥ at the antenna box on the formation of sheath-driving RF voltages for AUG. Large antenna-plasma clearance and low gas puff are favorable to reduce septum temperature of JET A2 antennas. Assuming a linear relation between the septum temperature and the sheath driving RF voltage calculated by HFSS, the changes of the temperature with dipole phasing (00ππ, 0ππ0 or 0π0π) are well described by the related changes of the RF voltages. Similarly to the AUG antenna, the strongest E _∥ are found at the limiters of the JET A2 antenna for all used dipole phasings and at the septum for the phasings different from 0π0π. A simple general rule can be used to minimize E_∥ at the antenna: image currents can be allowed only at the surfaces which do not intersect magnetic field lines at large angles of incidence. Possible antenna modifications generally rely either on a reduction of the image currents, on their short-circuiting by introducing additional conducting surfaces or on imposing the E_∥=0 boundary condition. On the example of AUG antenna, possible options to minimize the sheath driving voltages are presented.

Originalsprache	Englisch
Titel	Radio Frequency Power in plasmas - Proceedings of the 18th Topical Conference
Seiten	125-132
Seitenumfang	8
DOIs	https://doi.org/10.1063/1.3273710
Publikationsstatus	Veröffentlicht - 2009
Extern publiziert	Ja
Veranstaltung	18th Topical Conference on Radio Frequency Power in plasmas - Gent, Belgien Dauer: 24 Juni 2009 → 26 Juni 2009

Publikationsreihe

Name	AIP Conference Proceedings
Band	1187
ISSN (Print)	0094-243X
ISSN (elektronisch)	1551-7616

Konferenz

Konferenz	18th Topical Conference on Radio Frequency Power in plasmas
Land/Gebiet	Belgien
Ort	Gent
Zeitraum	24/06/09 → 26/06/09

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10.1063/1.3273710

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Bobkov, V., Bilato, R., Braun, F., Colas, L., Dux, R., Van Eester, D., Giannone, L., Goniche, M., Herrmann, A., Jacquet, P., Kallenbach, A., Krivska, A., Lerche, E., Mayoral, M. L., Milanesio, D., Monakhov, I., Müller, H. W., Neu, R., Noterdaeme, J. M., ... Rohde, V. (2009). Interaction of ICRF fields with the plasma boundary in AUG and JET and guidelines for antenna optimization. in Radio Frequency Power in plasmas - Proceedings of the 18th Topical Conference (S. 125-132). (AIP Conference Proceedings; Band 1187). https://doi.org/10.1063/1.3273710

@inproceedings{048f4f3fcab44865944ef2cfaba81371,

title = "Interaction of ICRF fields with the plasma boundary in AUG and JET and guidelines for antenna optimization",

abstract = "W sputtering during ICRF on ASDEX Upgrade (AUG) and temperature rise on JET A2 antenna septa are considered in connection with plasma conditions at the antenna plasma facing components and E∥ near-fields. Large antenna-plasma clearance, high gas puff and low light impurity content are favorable to reduce W sputtering in AUG. The spatial distribution of spectroscopically measured effective W sputtering yields clearly points to the existence of strong E∥ fields at the antenna box ({"}feeder fields{"}) which dominate over the fields in front of the antenna straps. The picture of E∥ fields, obtained by HFSS code, corroborates the dominant role of E∥ at the antenna box on the formation of sheath-driving RF voltages for AUG. Large antenna-plasma clearance and low gas puff are favorable to reduce septum temperature of JET A2 antennas. Assuming a linear relation between the septum temperature and the sheath driving RF voltage calculated by HFSS, the changes of the temperature with dipole phasing (00ππ, 0ππ0 or 0π0π) are well described by the related changes of the RF voltages. Similarly to the AUG antenna, the strongest E ∥ are found at the limiters of the JET A2 antenna for all used dipole phasings and at the septum for the phasings different from 0π0π. A simple general rule can be used to minimize E∥ at the antenna: image currents can be allowed only at the surfaces which do not intersect magnetic field lines at large angles of incidence. Possible antenna modifications generally rely either on a reduction of the image currents, on their short-circuiting by introducing additional conducting surfaces or on imposing the E∥=0 boundary condition. On the example of AUG antenna, possible options to minimize the sheath driving voltages are presented.",

keywords = "ASDEX-upgrade, High-Z material, Hot spots, ICRF, Impurity sources, JET",

author = "V. Bobkov and R. Bilato and F. Braun and L. Colas and R. Dux and {Van Eester}, D. and L. Giannone and M. Goniche and A. Herrmann and P. Jacquet and A. Kallenbach and A. Krivska and E. Lerche and Mayoral, {M. L.} and D. Milanesio and I. Monakhov and M{\"u}ller, {H. W.} and R. Neu and Noterdaeme, {J. M.} and Th P{\"u}tterich and V. Rohde",

year = "2009",

doi = "10.1063/1.3273710",

language = "English",

isbn = "9780735407534",

series = "AIP Conference Proceedings",

pages = "125--132",

booktitle = "Radio Frequency Power in plasmas - Proceedings of the 18th Topical Conference",

note = "18th Topical Conference on Radio Frequency Power in plasmas ; Conference date: 24-06-2009 Through 26-06-2009",

}

Bobkov, V, Bilato, R, Braun, F, Colas, L, Dux, R, Van Eester, D, Giannone, L, Goniche, M, Herrmann, A, Jacquet, P, Kallenbach, A, Krivska, A, Lerche, E, Mayoral, ML, Milanesio, D, Monakhov, I, Müller, HW, Neu, R, Noterdaeme, JM, Pütterich, T & Rohde, V 2009, Interaction of ICRF fields with the plasma boundary in AUG and JET and guidelines for antenna optimization. in Radio Frequency Power in plasmas - Proceedings of the 18th Topical Conference. AIP Conference Proceedings, Bd. 1187, S. 125-132, 18th Topical Conference on Radio Frequency Power in plasmas, Gent, Belgien, 24/06/09. https://doi.org/10.1063/1.3273710

Interaction of ICRF fields with the plasma boundary in AUG and JET and guidelines for antenna optimization. / Bobkov, V.; Bilato, R.; Braun, F. et al.
Radio Frequency Power in plasmas - Proceedings of the 18th Topical Conference. 2009. S. 125-132 (AIP Conference Proceedings; Band 1187).

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

TY - GEN

T1 - Interaction of ICRF fields with the plasma boundary in AUG and JET and guidelines for antenna optimization

AU - Bobkov, V.

AU - Bilato, R.

AU - Braun, F.

AU - Colas, L.

AU - Dux, R.

AU - Van Eester, D.

AU - Giannone, L.

AU - Goniche, M.

AU - Herrmann, A.

AU - Jacquet, P.

AU - Kallenbach, A.

AU - Krivska, A.

AU - Lerche, E.

AU - Mayoral, M. L.

AU - Milanesio, D.

AU - Monakhov, I.

AU - Müller, H. W.

AU - Neu, R.

AU - Noterdaeme, J. M.

AU - Pütterich, Th

AU - Rohde, V.

PY - 2009

Y1 - 2009

N2 - W sputtering during ICRF on ASDEX Upgrade (AUG) and temperature rise on JET A2 antenna septa are considered in connection with plasma conditions at the antenna plasma facing components and E∥ near-fields. Large antenna-plasma clearance, high gas puff and low light impurity content are favorable to reduce W sputtering in AUG. The spatial distribution of spectroscopically measured effective W sputtering yields clearly points to the existence of strong E∥ fields at the antenna box ("feeder fields") which dominate over the fields in front of the antenna straps. The picture of E∥ fields, obtained by HFSS code, corroborates the dominant role of E∥ at the antenna box on the formation of sheath-driving RF voltages for AUG. Large antenna-plasma clearance and low gas puff are favorable to reduce septum temperature of JET A2 antennas. Assuming a linear relation between the septum temperature and the sheath driving RF voltage calculated by HFSS, the changes of the temperature with dipole phasing (00ππ, 0ππ0 or 0π0π) are well described by the related changes of the RF voltages. Similarly to the AUG antenna, the strongest E ∥ are found at the limiters of the JET A2 antenna for all used dipole phasings and at the septum for the phasings different from 0π0π. A simple general rule can be used to minimize E∥ at the antenna: image currents can be allowed only at the surfaces which do not intersect magnetic field lines at large angles of incidence. Possible antenna modifications generally rely either on a reduction of the image currents, on their short-circuiting by introducing additional conducting surfaces or on imposing the E∥=0 boundary condition. On the example of AUG antenna, possible options to minimize the sheath driving voltages are presented.

AB - W sputtering during ICRF on ASDEX Upgrade (AUG) and temperature rise on JET A2 antenna septa are considered in connection with plasma conditions at the antenna plasma facing components and E∥ near-fields. Large antenna-plasma clearance, high gas puff and low light impurity content are favorable to reduce W sputtering in AUG. The spatial distribution of spectroscopically measured effective W sputtering yields clearly points to the existence of strong E∥ fields at the antenna box ("feeder fields") which dominate over the fields in front of the antenna straps. The picture of E∥ fields, obtained by HFSS code, corroborates the dominant role of E∥ at the antenna box on the formation of sheath-driving RF voltages for AUG. Large antenna-plasma clearance and low gas puff are favorable to reduce septum temperature of JET A2 antennas. Assuming a linear relation between the septum temperature and the sheath driving RF voltage calculated by HFSS, the changes of the temperature with dipole phasing (00ππ, 0ππ0 or 0π0π) are well described by the related changes of the RF voltages. Similarly to the AUG antenna, the strongest E ∥ are found at the limiters of the JET A2 antenna for all used dipole phasings and at the septum for the phasings different from 0π0π. A simple general rule can be used to minimize E∥ at the antenna: image currents can be allowed only at the surfaces which do not intersect magnetic field lines at large angles of incidence. Possible antenna modifications generally rely either on a reduction of the image currents, on their short-circuiting by introducing additional conducting surfaces or on imposing the E∥=0 boundary condition. On the example of AUG antenna, possible options to minimize the sheath driving voltages are presented.

KW - ASDEX-upgrade

KW - High-Z material

KW - Hot spots

KW - ICRF

KW - Impurity sources

KW - JET

UR - http://www.scopus.com/inward/record.url?scp=73449091473&partnerID=8YFLogxK

U2 - 10.1063/1.3273710

DO - 10.1063/1.3273710

M3 - Conference contribution

AN - SCOPUS:73449091473

SN - 9780735407534

T3 - AIP Conference Proceedings

SP - 125

EP - 132

BT - Radio Frequency Power in plasmas - Proceedings of the 18th Topical Conference

T2 - 18th Topical Conference on Radio Frequency Power in plasmas

Y2 - 24 June 2009 through 26 June 2009

ER -

Interaction of ICRF fields with the plasma boundary in AUG and JET and guidelines for antenna optimization

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