Effect of spatially non-uniform boronization on plasma restart in WEST

A. Gallo; P. Manas; T. Wauters; M. Diez; E. Geulin; E. Hodille; J. Gaspar; N. Rivals; P. Puglia; Ph Moreau; D. Douai; T. Alarcon; V. Anzallo; E. Caprin; M. De Combarieu; F. P. Pellissier; P. Devynck; C. Guillemaut; C. Desgranges; B. Guillermin; J. P. Gunn; S. Mazzi; J. Denis; T. Loarer; R. Pitts; N. Fedorczak; A. Grosjean; P. Maget; A. Ekedahl; J. Bucalossi; Y. Corre; K. Krieger; A. Widdowson; E. Tsitrone; Antti Hakola; WEST Team; EUROfusion Tokamak Exploitation Team

doi:10.1016/j.nme.2025.102042

Effect of spatially non-uniform boronization on plasma restart in WEST

A. Gallo^*
, P. Manas
, T. Wauters
, M. Diez
, E. Geulin
, E. Hodille
, J. Gaspar
, N. Rivals
, P. Puglia
, Ph Moreau
, D. Douai
, T. Alarcon
, V. Anzallo
, E. Caprin
, M. De Combarieu
, F. P. Pellissier
, P. Devynck
, C. Guillemaut
, C. Desgranges
, B. Guillermin

J. P. Gunn, S. Mazzi, J. Denis, T. Loarer, R. Pitts, N. Fedorczak, A. Grosjean, P. Maget, A. Ekedahl, J. Bucalossi, Y. Corre, K. Krieger, A. Widdowson, E. Tsitrone, Antti Hakola, WEST Team, EUROfusion Tokamak Exploitation Team

^*Corresponding author for this work

BA4511 Fusion energy

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

Abstract

The recent ITER re-baseline with the adoption of a full-W wall calls for mandatory boronization studies. ITER pulses will be inboard limited on the W tiles of the central column for several seconds during the current ramp up phase. Our first question of this study is: will it be possible to efficiently start plasma operations in a full-W ITER without any boronization? In particular, throughout the start of research operations (SRO), ITER will be equipped with an asymmetric boronization system as glow anodes in the equatorial plane will not be uniformly distributed in the toroidal direction due to the limited availability of ports. According to recent simulations, such arrangement of the glow anodes could lead to a strongly non-uniform B layer with depleted regions. Our second question hence is: should a boronization be needed to start plasma operations in ITER, would a non-uniform B layer be enough? In November 2024, we attempted to restart WEST plasma operations without boronization after a vent and after installing new bulk W limiter tiles. In about 4 days of operation corresponding to 74 pulse attempts, we reached a maximum pulse duration of 1.55 s and a maximum plasma current of 600 kA. Plasmas were cold and dense, mostly detached from the inboard limiter and dominated by light impurities with radiated power fractions close to unity. No runaway electron beams were observed but the restart without boronization was not timely. We then carried out the first WEST boronization utilizing only 3 out of 6 diborane (B₂D₆) inlets (half torus), to deposit a non-uniform B layer. Repeatable, 10 s long, ohmic limiter pulses were immediately achieved with radiated power fractions between 50 % and 70 %. Through a separate experiment in February 2025, we achieved matching pulses before and after a second non-uniform boronization to better characterize its effects: the radiated fraction initially dropped by 22 % with the reduction mainly occurring in the central plasma and well correlating with lower UV signals for O, N and W. These effects almost vanished by the end of the first day after the non-uniform boronization corresponding to a cumulated injected energy of 0.7 GJ.

Original language	English
Article number	102042
Journal	Nuclear Materials and Energy
Volume	46
DOIs	https://doi.org/10.1016/j.nme.2025.102042
Publication status	Published - Mar 2026
MoE publication type	A1 Journal article-refereed

Funding

This work has been carried out within the framework of the C, funded by the European Union via the Euratom Research and Training Programme (Grant Agreement No 101052200 — EUROfusion). Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or the European Commission. Neither the European Union nor the European Commission can be held responsible for them. The views and opinions expressed herein do not necessarily reflect those of the ITER Organization.

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Gallo, A., Manas, P., Wauters, T., Diez, M., Geulin, E., Hodille, E., Gaspar, J., Rivals, N., Puglia, P., Moreau, P., Douai, D., Alarcon, T., Anzallo, V., Caprin, E., De Combarieu, M., Pellissier, F. P., Devynck, P., Guillemaut, C., Desgranges, C., ... EUROfusion Tokamak Exploitation Team (2026). Effect of spatially non-uniform boronization on plasma restart in WEST. Nuclear Materials and Energy, 46, Article 102042. https://doi.org/10.1016/j.nme.2025.102042

@article{676608028929422fb206eb22c092f1c0,

title = "Effect of spatially non-uniform boronization on plasma restart in WEST",

abstract = "The recent ITER re-baseline with the adoption of a full-W wall calls for mandatory boronization studies. ITER pulses will be inboard limited on the W tiles of the central column for several seconds during the current ramp up phase. Our first question of this study is: will it be possible to efficiently start plasma operations in a full-W ITER without any boronization? In particular, throughout the start of research operations (SRO), ITER will be equipped with an asymmetric boronization system as glow anodes in the equatorial plane will not be uniformly distributed in the toroidal direction due to the limited availability of ports. According to recent simulations, such arrangement of the glow anodes could lead to a strongly non-uniform B layer with depleted regions. Our second question hence is: should a boronization be needed to start plasma operations in ITER, would a non-uniform B layer be enough? In November 2024, we attempted to restart WEST plasma operations without boronization after a vent and after installing new bulk W limiter tiles. In about 4 days of operation corresponding to 74 pulse attempts, we reached a maximum pulse duration of 1.55 s and a maximum plasma current of 600 kA. Plasmas were cold and dense, mostly detached from the inboard limiter and dominated by light impurities with radiated power fractions close to unity. No runaway electron beams were observed but the restart without boronization was not timely. We then carried out the first WEST boronization utilizing only 3 out of 6 diborane (B2D6) inlets (half torus), to deposit a non-uniform B layer. Repeatable, 10 s long, ohmic limiter pulses were immediately achieved with radiated power fractions between 50 \% and 70 \%. Through a separate experiment in February 2025, we achieved matching pulses before and after a second non-uniform boronization to better characterize its effects: the radiated fraction initially dropped by 22 \% with the reduction mainly occurring in the central plasma and well correlating with lower UV signals for O, N and W. These effects almost vanished by the end of the first day after the non-uniform boronization corresponding to a cumulated injected energy of 0.7 GJ.",

author = "A. Gallo and P. Manas and T. Wauters and M. Diez and E. Geulin and E. Hodille and J. Gaspar and N. Rivals and P. Puglia and Ph Moreau and D. Douai and T. Alarcon and V. Anzallo and E. Caprin and \{De Combarieu\}, M. and Pellissier, \{F. P.\} and P. Devynck and C. Guillemaut and C. Desgranges and B. Guillermin and Gunn, \{J. P.\} and S. Mazzi and J. Denis and T. Loarer and R. Pitts and N. Fedorczak and A. Grosjean and P. Maget and A. Ekedahl and J. Bucalossi and Y. Corre and K. Krieger and A. Widdowson and E. Tsitrone and Antti Hakola and \{WEST Team\} and \{EUROfusion Tokamak Exploitation Team\}",

note = "This work has been carried out within the framework of the C, funded by the European Union via the Euratom Research and Training Programme (Grant Agreement No 101052200 — EUROfusion). ",

year = "2026",

month = mar,

doi = "10.1016/j.nme.2025.102042",

language = "English",

volume = "46",

journal = "Nuclear Materials and Energy",

issn = "2352-1791",

publisher = "Elsevier",

}

Gallo, A, Manas, P, Wauters, T, Diez, M, Geulin, E, Hodille, E, Gaspar, J, Rivals, N, Puglia, P, Moreau, P, Douai, D, Alarcon, T, Anzallo, V, Caprin, E, De Combarieu, M, Pellissier, FP, Devynck, P, Guillemaut, C, Desgranges, C, Guillermin, B, Gunn, JP, Mazzi, S, Denis, J, Loarer, T, Pitts, R, Fedorczak, N, Grosjean, A, Maget, P, Ekedahl, A, Bucalossi, J, Corre, Y, Krieger, K, Widdowson, A, Tsitrone, E, Hakola, A, WEST Team & EUROfusion Tokamak Exploitation Team 2026, 'Effect of spatially non-uniform boronization on plasma restart in WEST', Nuclear Materials and Energy, vol. 46, 102042. https://doi.org/10.1016/j.nme.2025.102042

TY - JOUR

T1 - Effect of spatially non-uniform boronization on plasma restart in WEST

AU - Gallo, A.

AU - Manas, P.

AU - Wauters, T.

AU - Diez, M.

AU - Geulin, E.

AU - Hodille, E.

AU - Gaspar, J.

AU - Rivals, N.

AU - Puglia, P.

AU - Moreau, Ph

AU - Douai, D.

AU - Alarcon, T.

AU - Anzallo, V.

AU - Caprin, E.

AU - De Combarieu, M.

AU - Pellissier, F. P.

AU - Devynck, P.

AU - Guillemaut, C.

AU - Desgranges, C.

AU - Guillermin, B.

AU - Gunn, J. P.

AU - Mazzi, S.

AU - Denis, J.

AU - Loarer, T.

AU - Pitts, R.

AU - Fedorczak, N.

AU - Grosjean, A.

AU - Maget, P.

AU - Ekedahl, A.

AU - Bucalossi, J.

AU - Corre, Y.

AU - Krieger, K.

AU - Widdowson, A.

AU - Tsitrone, E.

AU - Hakola, Antti

AU - WEST Team

AU - EUROfusion Tokamak Exploitation Team

N1 - This work has been carried out within the framework of the C, funded by the European Union via the Euratom Research and Training Programme (Grant Agreement No 101052200 — EUROfusion).

PY - 2026/3

Y1 - 2026/3

N2 - The recent ITER re-baseline with the adoption of a full-W wall calls for mandatory boronization studies. ITER pulses will be inboard limited on the W tiles of the central column for several seconds during the current ramp up phase. Our first question of this study is: will it be possible to efficiently start plasma operations in a full-W ITER without any boronization? In particular, throughout the start of research operations (SRO), ITER will be equipped with an asymmetric boronization system as glow anodes in the equatorial plane will not be uniformly distributed in the toroidal direction due to the limited availability of ports. According to recent simulations, such arrangement of the glow anodes could lead to a strongly non-uniform B layer with depleted regions. Our second question hence is: should a boronization be needed to start plasma operations in ITER, would a non-uniform B layer be enough? In November 2024, we attempted to restart WEST plasma operations without boronization after a vent and after installing new bulk W limiter tiles. In about 4 days of operation corresponding to 74 pulse attempts, we reached a maximum pulse duration of 1.55 s and a maximum plasma current of 600 kA. Plasmas were cold and dense, mostly detached from the inboard limiter and dominated by light impurities with radiated power fractions close to unity. No runaway electron beams were observed but the restart without boronization was not timely. We then carried out the first WEST boronization utilizing only 3 out of 6 diborane (B2D6) inlets (half torus), to deposit a non-uniform B layer. Repeatable, 10 s long, ohmic limiter pulses were immediately achieved with radiated power fractions between 50 % and 70 %. Through a separate experiment in February 2025, we achieved matching pulses before and after a second non-uniform boronization to better characterize its effects: the radiated fraction initially dropped by 22 % with the reduction mainly occurring in the central plasma and well correlating with lower UV signals for O, N and W. These effects almost vanished by the end of the first day after the non-uniform boronization corresponding to a cumulated injected energy of 0.7 GJ.

AB - The recent ITER re-baseline with the adoption of a full-W wall calls for mandatory boronization studies. ITER pulses will be inboard limited on the W tiles of the central column for several seconds during the current ramp up phase. Our first question of this study is: will it be possible to efficiently start plasma operations in a full-W ITER without any boronization? In particular, throughout the start of research operations (SRO), ITER will be equipped with an asymmetric boronization system as glow anodes in the equatorial plane will not be uniformly distributed in the toroidal direction due to the limited availability of ports. According to recent simulations, such arrangement of the glow anodes could lead to a strongly non-uniform B layer with depleted regions. Our second question hence is: should a boronization be needed to start plasma operations in ITER, would a non-uniform B layer be enough? In November 2024, we attempted to restart WEST plasma operations without boronization after a vent and after installing new bulk W limiter tiles. In about 4 days of operation corresponding to 74 pulse attempts, we reached a maximum pulse duration of 1.55 s and a maximum plasma current of 600 kA. Plasmas were cold and dense, mostly detached from the inboard limiter and dominated by light impurities with radiated power fractions close to unity. No runaway electron beams were observed but the restart without boronization was not timely. We then carried out the first WEST boronization utilizing only 3 out of 6 diborane (B2D6) inlets (half torus), to deposit a non-uniform B layer. Repeatable, 10 s long, ohmic limiter pulses were immediately achieved with radiated power fractions between 50 % and 70 %. Through a separate experiment in February 2025, we achieved matching pulses before and after a second non-uniform boronization to better characterize its effects: the radiated fraction initially dropped by 22 % with the reduction mainly occurring in the central plasma and well correlating with lower UV signals for O, N and W. These effects almost vanished by the end of the first day after the non-uniform boronization corresponding to a cumulated injected energy of 0.7 GJ.

UR - https://www.scopus.com/pages/publications/105025113426

U2 - 10.1016/j.nme.2025.102042

DO - 10.1016/j.nme.2025.102042

M3 - Article

AN - SCOPUS:105025113426

SN - 2352-1791

VL - 46

JO - Nuclear Materials and Energy

JF - Nuclear Materials and Energy

M1 - 102042

ER -

Effect of spatially non-uniform boronization on plasma restart in WEST

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