Helium plasma operations on ASDEX Upgrade and JET in support of the non-nuclear phases of ITER

Antti Hakola; M. Balden; M. Baruzzo; R. Bisson; S. Brezinsek; T. Dittmar; D. Douai; M. Dunne; L. Garzotti; M. Groth; Jari Likonen; Tuomas Tala; EUROfusion Tokamak Exploitation Team; ASDEX Upgrade Team; JET Contributors

doi:10.1088/1741-4326/ad6335

Helium plasma operations on ASDEX Upgrade and JET in support of the non-nuclear phases of ITER

Antti Hakola^*, M. Balden, M. Baruzzo, R. Bisson, S. Brezinsek, T. Dittmar, D. Douai, M. Dunne, L. Garzotti, M. Groth, Jari Likonen, Tuomas Tala, EUROfusion Tokamak Exploitation Team, ASDEX Upgrade Team, JET Contributors

^*Corresponding author for this work

BA4511 Fusion energy

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Abstract

For its initial operational phase, ITER has until recently considered using non-nuclear hydrogen (H) or helium (He) plasmas to keep nuclear activation at low levels. To this end, the Tokamak Exploitation Task Force of the EUROfusion Consortium carried out dedicated experimental campaigns in He on the ASDEX Upgrade (AUG) and JET tokamaks in 2022, with particular emphasis put on the ELMy H-mode operation and plasma-wall interaction processes as well as comparison to H or deuterium (D) plasmas. Both in pure He and mixed He + H plasmas, H-mode operation could be reached but more effort was needed to obtain a stable plasma scenario than in H or D. Even if the power threshold for the LH transition was lower in He, entering the type-I ELMy regime appeared to require equally much or even more heating power than in H. Suppression of ELMs by resonant magnetic perturbations was studied on AUG but was only possible in plasmas with a He content below 19%; the reason for this unexpected behaviour remains still unclear and various theoretical approaches are being pursued to properly understand the physics behind ELM suppression. The erosion rates of tungsten (W) plasma-facing components were an order of magnitude larger than what has been reported in hydrogenic plasmas, which can be attributed to the prominent role of He²⁺ ions in the plasma. For the first time, the formation of nanoscale structures (W fuzz) was unambiguously demonstrated in H-mode He plasmas on AUG. However, no direct evidence of fuzz creation on JET was obtained despite the main conditions for its occurrence being met. The reason could be a delicate balance between W erosion by ELMs, competition between the growth and annealing of the fuzz, and coverage of the surface with co-deposits.

Original language	English
Article number	096022
Journal	Nuclear Fusion
Volume	64
Issue number	9
DOIs	https://doi.org/10.1088/1741-4326/ad6335
Publication status	Published - Sept 2024
MoE publication type	A1 Journal article-refereed

Funding

This work has been carried out within the framework of the EUROfusion Consortium, partially funded by the European Union via the Euratom Research and Training Programme (Grant Agreement No 101052200\u2014EUROfusion). The Swiss contribution to this work has been funded by the Swiss State Secretariat for Education, Research and Innovation (SERI). Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union, the European Commission or SERI. Neither the European Union nor the European Commission nor SERI can be held responsible for them. The views and opinions expressed herein do not necessarily reflect those of the ITER Organization. This research was supported in part by the grants FIS2017-85252-R and PID2021-127727OB-I00, funded by MCIN/AEI/ 10.13039/501100011033 and by \u2018ERDF A way of making Europe\u2019.

Keywords

erosion
H-mode
helium plasma
tungsten fuzz

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Hakola, A., Balden, M., Baruzzo, M., Bisson, R., Brezinsek, S., Dittmar, T., Douai, D., Dunne, M., Garzotti, L., Groth, M., Likonen, J., Tala, T., EUROfusion Tokamak Exploitation Team, ASDEX Upgrade Team, & JET Contributors (2024). Helium plasma operations on ASDEX Upgrade and JET in support of the non-nuclear phases of ITER. Nuclear Fusion, 64(9), Article 096022. https://doi.org/10.1088/1741-4326/ad6335

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title = "Helium plasma operations on ASDEX Upgrade and JET in support of the non-nuclear phases of ITER",

abstract = "For its initial operational phase, ITER has until recently considered using non-nuclear hydrogen (H) or helium (He) plasmas to keep nuclear activation at low levels. To this end, the Tokamak Exploitation Task Force of the EUROfusion Consortium carried out dedicated experimental campaigns in He on the ASDEX Upgrade (AUG) and JET tokamaks in 2022, with particular emphasis put on the ELMy H-mode operation and plasma-wall interaction processes as well as comparison to H or deuterium (D) plasmas. Both in pure He and mixed He + H plasmas, H-mode operation could be reached but more effort was needed to obtain a stable plasma scenario than in H or D. Even if the power threshold for the LH transition was lower in He, entering the type-I ELMy regime appeared to require equally much or even more heating power than in H. Suppression of ELMs by resonant magnetic perturbations was studied on AUG but was only possible in plasmas with a He content below 19%; the reason for this unexpected behaviour remains still unclear and various theoretical approaches are being pursued to properly understand the physics behind ELM suppression. The erosion rates of tungsten (W) plasma-facing components were an order of magnitude larger than what has been reported in hydrogenic plasmas, which can be attributed to the prominent role of He2+ ions in the plasma. For the first time, the formation of nanoscale structures (W fuzz) was unambiguously demonstrated in H-mode He plasmas on AUG. However, no direct evidence of fuzz creation on JET was obtained despite the main conditions for its occurrence being met. The reason could be a delicate balance between W erosion by ELMs, competition between the growth and annealing of the fuzz, and coverage of the surface with co-deposits.",

keywords = "erosion, H-mode, helium plasma, tungsten fuzz",

author = "Antti Hakola and M. Balden and M. Baruzzo and R. Bisson and S. Brezinsek and T. Dittmar and D. Douai and M. Dunne and L. Garzotti and M. Groth and R. Henriques and L. Horvath and I. Jepu and E. Joffrin and A. Kappatou and D. Keeling and K. Krieger and B. Labit and M. Lennholm and Jari Likonen and A. Loarte and P. Lomas and C. Lowry and M. Maslov and D. Matveev and Pitts, {R. A.} and U. Plank and M. Rasinski and D. Ryan and S. Saarelma and S. Silburn and Solano, {E. R.} and W. Suttrop and Tuomas Tala and E. Tsitrone and N. Vianello and T. Wauters and A. Widdowson and M. Wischmeier and {EUROfusion Tokamak Exploitation Team} and {ASDEX Upgrade Team} and {JET Contributors}",

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doi = "10.1088/1741-4326/ad6335",

language = "English",

volume = "64",

journal = "Nuclear Fusion",

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Hakola, A, Balden, M, Baruzzo, M, Bisson, R, Brezinsek, S, Dittmar, T, Douai, D, Dunne, M, Garzotti, L, Groth, M, Likonen, J , Tala, T, EUROfusion Tokamak Exploitation Team, ASDEX Upgrade Team & JET Contributors 2024, 'Helium plasma operations on ASDEX Upgrade and JET in support of the non-nuclear phases of ITER', Nuclear Fusion, vol. 64, no. 9, 096022. https://doi.org/10.1088/1741-4326/ad6335

TY - JOUR

T1 - Helium plasma operations on ASDEX Upgrade and JET in support of the non-nuclear phases of ITER

AU - Hakola, Antti

AU - Balden, M.

AU - Baruzzo, M.

AU - Bisson, R.

AU - Brezinsek, S.

AU - Dittmar, T.

AU - Douai, D.

AU - Dunne, M.

AU - Garzotti, L.

AU - Groth, M.

AU - Henriques, R.

AU - Horvath, L.

AU - Jepu, I.

AU - Joffrin, E.

AU - Kappatou, A.

AU - Keeling, D.

AU - Krieger, K.

AU - Labit, B.

AU - Lennholm, M.

AU - Likonen, Jari

AU - Loarte, A.

AU - Lomas, P.

AU - Lowry, C.

AU - Maslov, M.

AU - Matveev, D.

AU - Pitts, R. A.

AU - Plank, U.

AU - Rasinski, M.

AU - Ryan, D.

AU - Saarelma, S.

AU - Silburn, S.

AU - Solano, E. R.

AU - Suttrop, W.

AU - Tala, Tuomas

AU - Tsitrone, E.

AU - Vianello, N.

AU - Wauters, T.

AU - Widdowson, A.

AU - Wischmeier, M.

AU - EUROfusion Tokamak Exploitation Team

AU - ASDEX Upgrade Team

AU - JET Contributors

PY - 2024/9

Y1 - 2024/9

N2 - For its initial operational phase, ITER has until recently considered using non-nuclear hydrogen (H) or helium (He) plasmas to keep nuclear activation at low levels. To this end, the Tokamak Exploitation Task Force of the EUROfusion Consortium carried out dedicated experimental campaigns in He on the ASDEX Upgrade (AUG) and JET tokamaks in 2022, with particular emphasis put on the ELMy H-mode operation and plasma-wall interaction processes as well as comparison to H or deuterium (D) plasmas. Both in pure He and mixed He + H plasmas, H-mode operation could be reached but more effort was needed to obtain a stable plasma scenario than in H or D. Even if the power threshold for the LH transition was lower in He, entering the type-I ELMy regime appeared to require equally much or even more heating power than in H. Suppression of ELMs by resonant magnetic perturbations was studied on AUG but was only possible in plasmas with a He content below 19%; the reason for this unexpected behaviour remains still unclear and various theoretical approaches are being pursued to properly understand the physics behind ELM suppression. The erosion rates of tungsten (W) plasma-facing components were an order of magnitude larger than what has been reported in hydrogenic plasmas, which can be attributed to the prominent role of He2+ ions in the plasma. For the first time, the formation of nanoscale structures (W fuzz) was unambiguously demonstrated in H-mode He plasmas on AUG. However, no direct evidence of fuzz creation on JET was obtained despite the main conditions for its occurrence being met. The reason could be a delicate balance between W erosion by ELMs, competition between the growth and annealing of the fuzz, and coverage of the surface with co-deposits.

AB - For its initial operational phase, ITER has until recently considered using non-nuclear hydrogen (H) or helium (He) plasmas to keep nuclear activation at low levels. To this end, the Tokamak Exploitation Task Force of the EUROfusion Consortium carried out dedicated experimental campaigns in He on the ASDEX Upgrade (AUG) and JET tokamaks in 2022, with particular emphasis put on the ELMy H-mode operation and plasma-wall interaction processes as well as comparison to H or deuterium (D) plasmas. Both in pure He and mixed He + H plasmas, H-mode operation could be reached but more effort was needed to obtain a stable plasma scenario than in H or D. Even if the power threshold for the LH transition was lower in He, entering the type-I ELMy regime appeared to require equally much or even more heating power than in H. Suppression of ELMs by resonant magnetic perturbations was studied on AUG but was only possible in plasmas with a He content below 19%; the reason for this unexpected behaviour remains still unclear and various theoretical approaches are being pursued to properly understand the physics behind ELM suppression. The erosion rates of tungsten (W) plasma-facing components were an order of magnitude larger than what has been reported in hydrogenic plasmas, which can be attributed to the prominent role of He2+ ions in the plasma. For the first time, the formation of nanoscale structures (W fuzz) was unambiguously demonstrated in H-mode He plasmas on AUG. However, no direct evidence of fuzz creation on JET was obtained despite the main conditions for its occurrence being met. The reason could be a delicate balance between W erosion by ELMs, competition between the growth and annealing of the fuzz, and coverage of the surface with co-deposits.

KW - erosion

KW - H-mode

KW - helium plasma

KW - tungsten fuzz

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U2 - 10.1088/1741-4326/ad6335

DO - 10.1088/1741-4326/ad6335

M3 - Article

AN - SCOPUS:85200792069

SN - 0029-5515

VL - 64

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 9

M1 - 096022

ER -

Helium plasma operations on ASDEX Upgrade and JET in support of the non-nuclear phases of ITER

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Keywords

UN SDGs

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