Density dependence of trace tritium transport in H -mode Joint European Torus plasma

I. Voitsekhovitch; X. Garbet; D. C. McDonald; K. D. Zastrow; M. Adams; Yu Baranov; P. Belo; L. Bertalot; R. Budny; S. Conroy; J. G. Cordey; L. Garzotti; P. Mantica; D. McCune; J. Ongena; V. Parail; S. Popovichev; D. Stork; A. D. Whiteford

doi:10.1063/1.1895887

Density dependence of trace tritium transport in H -mode Joint European Torus plasma

I. Voitsekhovitch
, X. Garbet
, D. C. McDonald
, K. D. Zastrow
, M. Adams
, Yu Baranov
, P. Belo
, L. Bertalot
, R. Budny
, S. Conroy
, J. G. Cordey
, L. Garzotti
, P. Mantica
, D. McCune
, J. Ongena
, V. Parail
, S. Popovichev
, D. Stork
, A. D. Whiteford

Laboratory for Plasma Physics

Culham Centre for Fusion Energy
Commissariat à l'Énergie Atomique et aux Énergies Alternatives
Instituto Superior Técnico
Associazione EURATOM-ENEA sulla Fusione
Princeton Plasma Physics Laboratory
Uppsala Universitet
Consorzio Rfx
University of Strathclyde

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9 Citaten (Scopus)

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Tritium transport in edge localized mode (ELM) high confinement (H -mode) plasmas is analyzed here as a function of density for discharges from the recent trace tritium experimental campaign performed on Joint European Torus. In this campaign small amounts of tritium have been puffed or injected (with neutral beam injectors) into deuterium plasmas [K.-D. Zastrow, J. M. Adams, Yu. Baranov, Plasma Phys. Controlled Fusion 46, B255 (2004)]. Information about the tritium has been obtained from the evolution of the profiles of neutron emission simulated via the TRANSP [R. J. Goldston, D. C. McCune, H. H. Towner, S. L. Davis, R. J. Hawryluk, and G. L. Schmidt, J. Comput. Phys. 43, 61 (1981)] and SANCO (L. Lauro-Taroni, B. Alper, R. Giannella, K. Lawson, F. Marcus, M. Mattioli, P. Smeulders, and M. Von Hellermann, Proceedings of the 21st European Conference on Controlled Fusion and Plasma Physics, Montpelier, France, 1994) codes. A strong inverse correlation of tritium transport with plasma density is found in this analysis. The low tritium transport at high density is close to neoclassical values while the transport becomes strongly anomalous in low density plasmas. The thermal transport does not exhibit such a strong density dependence, leading to a varying ratio of thermal to tritium transport in these discharges. An interpretation of the density effects on the trace tritium transport, partially based on the test particle simulations in plasmas with stochastic magnetic field, is proposed. A simple model for the tritium diffusion coefficient and convective velocity, which includes the modification of the neoclassical particle diffusion in presence of electromagnetic turbulence [A. I. Smolyakov and P. N. Yushmanov, Nucl. Fusion 35, 383 (1993)] completed with an empirical density dependence, is developed. This model has positive Β dependence in agreement with the results of the similarity experiments performed for trace tritium transport.

Originele taal-2	Engels
Pagina's (van-tot)	1-12
Aantal pagina's	12
Tijdschrift	Physics of Plasmas
Volume	12
Nummer van het tijdschrift	5
DOI's	https://doi.org/10.1063/1.1895887
Status	Gepubliceerd - mei 2005

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10.1063/1.1895887

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Voitsekhovitch, I., Garbet, X., McDonald, D. C., Zastrow, K. D., Adams, M., Baranov, Y., Belo, P., Bertalot, L., Budny, R., Conroy, S., Cordey, J. G., Garzotti, L., Mantica, P., McCune, D., Ongena, J., Parail, V., Popovichev, S., Stork, D., & Whiteford, A. D. (2005). Density dependence of trace tritium transport in H -mode Joint European Torus plasma. Physics of Plasmas, 12(5), 1-12. https://doi.org/10.1063/1.1895887

@article{70dec6925e5f4c46a09762ca90b5f661,

title = "Density dependence of trace tritium transport in H -mode Joint European Torus plasma",

abstract = "Tritium transport in edge localized mode (ELM) high confinement (H -mode) plasmas is analyzed here as a function of density for discharges from the recent trace tritium experimental campaign performed on Joint European Torus. In this campaign small amounts of tritium have been puffed or injected (with neutral beam injectors) into deuterium plasmas [K.-D. Zastrow, J. M. Adams, Yu. Baranov, Plasma Phys. Controlled Fusion 46, B255 (2004)]. Information about the tritium has been obtained from the evolution of the profiles of neutron emission simulated via the TRANSP [R. J. Goldston, D. C. McCune, H. H. Towner, S. L. Davis, R. J. Hawryluk, and G. L. Schmidt, J. Comput. Phys. 43, 61 (1981)] and SANCO (L. Lauro-Taroni, B. Alper, R. Giannella, K. Lawson, F. Marcus, M. Mattioli, P. Smeulders, and M. Von Hellermann, Proceedings of the 21st European Conference on Controlled Fusion and Plasma Physics, Montpelier, France, 1994) codes. A strong inverse correlation of tritium transport with plasma density is found in this analysis. The low tritium transport at high density is close to neoclassical values while the transport becomes strongly anomalous in low density plasmas. The thermal transport does not exhibit such a strong density dependence, leading to a varying ratio of thermal to tritium transport in these discharges. An interpretation of the density effects on the trace tritium transport, partially based on the test particle simulations in plasmas with stochastic magnetic field, is proposed. A simple model for the tritium diffusion coefficient and convective velocity, which includes the modification of the neoclassical particle diffusion in presence of electromagnetic turbulence [A. I. Smolyakov and P. N. Yushmanov, Nucl. Fusion 35, 383 (1993)] completed with an empirical density dependence, is developed. This model has positive Β dependence in agreement with the results of the similarity experiments performed for trace tritium transport.",

author = "I. Voitsekhovitch and X. Garbet and McDonald, \{D. C.\} and Zastrow, \{K. D.\} and M. Adams and Yu Baranov and P. Belo and L. Bertalot and R. Budny and S. Conroy and Cordey, \{J. G.\} and L. Garzotti and P. Mantica and D. McCune and J. Ongena and V. Parail and S. Popovichev and D. Stork and Whiteford, \{A. D.\}",

note = "Funding Information: This work was performed under the European Fusion Development Agreement, and was partly funded by EURATOM and the UK Engineering and Physical Sciences Research Council.",

year = "2005",

month = may,

doi = "10.1063/1.1895887",

language = "English",

volume = "12",

pages = "1--12",

journal = "Physics of Plasmas",

issn = "1070-664X",

number = "5",

}

Voitsekhovitch, I, Garbet, X, McDonald, DC, Zastrow, KD, Adams, M, Baranov, Y, Belo, P, Bertalot, L, Budny, R, Conroy, S, Cordey, JG, Garzotti, L, Mantica, P, McCune, D, Ongena, J, Parail, V, Popovichev, S, Stork, D & Whiteford, AD 2005, 'Density dependence of trace tritium transport in H -mode Joint European Torus plasma', Physics of Plasmas, vol. 12, nr. 5, blz. 1-12. https://doi.org/10.1063/1.1895887

TY - JOUR

T1 - Density dependence of trace tritium transport in H -mode Joint European Torus plasma

AU - Voitsekhovitch, I.

AU - Garbet, X.

AU - McDonald, D. C.

AU - Zastrow, K. D.

AU - Adams, M.

AU - Baranov, Yu

AU - Belo, P.

AU - Bertalot, L.

AU - Budny, R.

AU - Conroy, S.

AU - Cordey, J. G.

AU - Garzotti, L.

AU - Mantica, P.

AU - McCune, D.

AU - Ongena, J.

AU - Parail, V.

AU - Popovichev, S.

AU - Stork, D.

AU - Whiteford, A. D.

N1 - Funding Information: This work was performed under the European Fusion Development Agreement, and was partly funded by EURATOM and the UK Engineering and Physical Sciences Research Council.

PY - 2005/5

Y1 - 2005/5

N2 - Tritium transport in edge localized mode (ELM) high confinement (H -mode) plasmas is analyzed here as a function of density for discharges from the recent trace tritium experimental campaign performed on Joint European Torus. In this campaign small amounts of tritium have been puffed or injected (with neutral beam injectors) into deuterium plasmas [K.-D. Zastrow, J. M. Adams, Yu. Baranov, Plasma Phys. Controlled Fusion 46, B255 (2004)]. Information about the tritium has been obtained from the evolution of the profiles of neutron emission simulated via the TRANSP [R. J. Goldston, D. C. McCune, H. H. Towner, S. L. Davis, R. J. Hawryluk, and G. L. Schmidt, J. Comput. Phys. 43, 61 (1981)] and SANCO (L. Lauro-Taroni, B. Alper, R. Giannella, K. Lawson, F. Marcus, M. Mattioli, P. Smeulders, and M. Von Hellermann, Proceedings of the 21st European Conference on Controlled Fusion and Plasma Physics, Montpelier, France, 1994) codes. A strong inverse correlation of tritium transport with plasma density is found in this analysis. The low tritium transport at high density is close to neoclassical values while the transport becomes strongly anomalous in low density plasmas. The thermal transport does not exhibit such a strong density dependence, leading to a varying ratio of thermal to tritium transport in these discharges. An interpretation of the density effects on the trace tritium transport, partially based on the test particle simulations in plasmas with stochastic magnetic field, is proposed. A simple model for the tritium diffusion coefficient and convective velocity, which includes the modification of the neoclassical particle diffusion in presence of electromagnetic turbulence [A. I. Smolyakov and P. N. Yushmanov, Nucl. Fusion 35, 383 (1993)] completed with an empirical density dependence, is developed. This model has positive Β dependence in agreement with the results of the similarity experiments performed for trace tritium transport.

AB - Tritium transport in edge localized mode (ELM) high confinement (H -mode) plasmas is analyzed here as a function of density for discharges from the recent trace tritium experimental campaign performed on Joint European Torus. In this campaign small amounts of tritium have been puffed or injected (with neutral beam injectors) into deuterium plasmas [K.-D. Zastrow, J. M. Adams, Yu. Baranov, Plasma Phys. Controlled Fusion 46, B255 (2004)]. Information about the tritium has been obtained from the evolution of the profiles of neutron emission simulated via the TRANSP [R. J. Goldston, D. C. McCune, H. H. Towner, S. L. Davis, R. J. Hawryluk, and G. L. Schmidt, J. Comput. Phys. 43, 61 (1981)] and SANCO (L. Lauro-Taroni, B. Alper, R. Giannella, K. Lawson, F. Marcus, M. Mattioli, P. Smeulders, and M. Von Hellermann, Proceedings of the 21st European Conference on Controlled Fusion and Plasma Physics, Montpelier, France, 1994) codes. A strong inverse correlation of tritium transport with plasma density is found in this analysis. The low tritium transport at high density is close to neoclassical values while the transport becomes strongly anomalous in low density plasmas. The thermal transport does not exhibit such a strong density dependence, leading to a varying ratio of thermal to tritium transport in these discharges. An interpretation of the density effects on the trace tritium transport, partially based on the test particle simulations in plasmas with stochastic magnetic field, is proposed. A simple model for the tritium diffusion coefficient and convective velocity, which includes the modification of the neoclassical particle diffusion in presence of electromagnetic turbulence [A. I. Smolyakov and P. N. Yushmanov, Nucl. Fusion 35, 383 (1993)] completed with an empirical density dependence, is developed. This model has positive Β dependence in agreement with the results of the similarity experiments performed for trace tritium transport.

UR - https://www.scopus.com/pages/publications/20844452091

U2 - 10.1063/1.1895887

DO - 10.1063/1.1895887

M3 - Article

AN - SCOPUS:20844452091

SN - 1070-664X

VL - 12

SP - 1

EP - 12

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 5

ER -

Density dependence of trace tritium transport in H -mode Joint European Torus plasma

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