Impact of bivariate energy and angular atomic impact spectra on tungsten erosion in JET

Kumpulainen H. A.; Līga Avotiņa; Larisa Baumane; Mihails Haļitovs; Patrīcija Kalniņa; Gunta Ķizāne; Andris Leščinskis; Elīna Pajuste; Anete Stīne Teimane; Aigars Vītiņš; Rūdolfs Jānis Zabolockis; Artūrs Zariņš; JET Contributors

doi:10.1088/1361-6587/add376

Impact of bivariate energy and angular atomic impact spectra on tungsten erosion in JET

Kumpulainen H. A.
, Līga Avotiņa
, Larisa Baumane
, Mihails Haļitovs
, Patrīcija Kalniņa
, Gunta Ķizāne
, Andris Leščinskis
, Elīna Pajuste
, Anete Stīne Teimane
, Aigars Vītiņš
, Rūdolfs Jānis Zabolockis
, Artūrs Zariņš
, JET Contributors

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

1 Citation (Scopus)

Abstract

The erosion of tungsten plasma-facing components due to charge-exchange atoms, predicted to be the dominant cause of the observed W radiation in most JET plasmas with a Be/W wall (formerly ITER-like wall), is quantified by the first EIRENE simulations of the bivariate energy-angular impact spectrum and the incident flux of deuterium and tritium atoms. The tungsten erosion rate due to the bivariate impact spectrum in the JET outer vertical divertor corresponds to a constant effective impact angle of 43 ∘ . Assuming independent univariate energy and angular distributions instead of the bivariate spectrum causes a predicted increase of order 10% in the tungsten influx and the core radiated power. The predicted tungsten sputtering rate due to tritium atoms is 2-6 times the sputtering rate by deuterium atoms in similar edge plasmas. A hypothetical replacement of all JET first-wall materials with tungsten is predicted to raise the total radiated power by 60% in a diverted H-mode scenario if the added radiation is offset by additional heating and the plasma conditions are unchanged.

Original language	English
Article number	055044
Journal	Plasma Physics and Controlled Fusion
Volume	67
Issue number	5
DOIs	https://doi.org/10.1088/1361-6587/add376
Publication status	Published - 31 May 2025

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

SDG 7 Affordable and Clean Energy

Keywords

charge exchange
deuterium
functional expansion tallies
Monte Carlo
sputtering
tritium
tungsten

OECD Field of Science

1.3 Physical Sciences

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10.1088/1361-6587/add376

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H. A., K., Avotiņa, L., Baumane, L., Haļitovs, M., Kalniņa, P., Ķizāne, G., Leščinskis, A., Pajuste, E., Teimane, A. S., Vītiņš, A., Zabolockis, R. J., Zariņš, A., & Contributors, JET. (2025). Impact of bivariate energy and angular atomic impact spectra on tungsten erosion in JET. Plasma Physics and Controlled Fusion, 67(5), Article 055044. https://doi.org/10.1088/1361-6587/add376

@article{2cf35f15b0d04680bebba4bf26b94ea4,

title = "Impact of bivariate energy and angular atomic impact spectra on tungsten erosion in JET",

abstract = "The erosion of tungsten plasma-facing components due to charge-exchange atoms, predicted to be the dominant cause of the observed W radiation in most JET plasmas with a Be/W wall (formerly ITER-like wall), is quantified by the first EIRENE simulations of the bivariate energy-angular impact spectrum and the incident flux of deuterium and tritium atoms. The tungsten erosion rate due to the bivariate impact spectrum in the JET outer vertical divertor corresponds to a constant effective impact angle of 43 ∘ . Assuming independent univariate energy and angular distributions instead of the bivariate spectrum causes a predicted increase of order 10\% in the tungsten influx and the core radiated power. The predicted tungsten sputtering rate due to tritium atoms is 2-6 times the sputtering rate by deuterium atoms in similar edge plasmas. A hypothetical replacement of all JET first-wall materials with tungsten is predicted to raise the total radiated power by 60\% in a diverted H-mode scenario if the added radiation is offset by additional heating and the plasma conditions are unchanged.",

keywords = "charge exchange, deuterium, functional expansion tallies, Monte Carlo, sputtering, tritium, tungsten",

author = "\{H. A.\}, Kumpulainen and Līga Avotiņa and Larisa Baumane and Mihails Haļitovs and Patrīcija Kalniņa and Gunta Ķizāne and Andris Le{\v s}{\v c}inskis and Elīna Pajuste and Teimane, \{Anete Stīne\} and Aigars Vītiņ{\v s} and Zabolockis, \{Rūdolfs Jānis\} and Artūrs Zariņ{\v s} and JET Contributors",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published by IOP Publishing Ltd.",

year = "2025",

month = may,

day = "31",

doi = "10.1088/1361-6587/add376",

language = "English",

volume = "67",

journal = "Plasma Physics and Controlled Fusion",

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H. A., K, Avotiņa, L, Baumane, L, Haļitovs, M, Kalniņa, P, Ķizāne, G, Leščinskis, A, Pajuste, E , Teimane, AS, Vītiņš, A, Zabolockis, RJ , Zariņš, A & Contributors, JET 2025, 'Impact of bivariate energy and angular atomic impact spectra on tungsten erosion in JET', Plasma Physics and Controlled Fusion, vol. 67, no. 5, 055044. https://doi.org/10.1088/1361-6587/add376

TY - JOUR

T1 - Impact of bivariate energy and angular atomic impact spectra on tungsten erosion in JET

AU - H. A., Kumpulainen

AU - Avotiņa, Līga

AU - Baumane, Larisa

AU - Haļitovs, Mihails

AU - Kalniņa, Patrīcija

AU - Ķizāne, Gunta

AU - Leščinskis, Andris

AU - Pajuste, Elīna

AU - Teimane, Anete Stīne

AU - Vītiņš, Aigars

AU - Zabolockis, Rūdolfs Jānis

AU - Zariņš, Artūrs

AU - Contributors, JET

PY - 2025/5/31

Y1 - 2025/5/31

N2 - The erosion of tungsten plasma-facing components due to charge-exchange atoms, predicted to be the dominant cause of the observed W radiation in most JET plasmas with a Be/W wall (formerly ITER-like wall), is quantified by the first EIRENE simulations of the bivariate energy-angular impact spectrum and the incident flux of deuterium and tritium atoms. The tungsten erosion rate due to the bivariate impact spectrum in the JET outer vertical divertor corresponds to a constant effective impact angle of 43 ∘ . Assuming independent univariate energy and angular distributions instead of the bivariate spectrum causes a predicted increase of order 10% in the tungsten influx and the core radiated power. The predicted tungsten sputtering rate due to tritium atoms is 2-6 times the sputtering rate by deuterium atoms in similar edge plasmas. A hypothetical replacement of all JET first-wall materials with tungsten is predicted to raise the total radiated power by 60% in a diverted H-mode scenario if the added radiation is offset by additional heating and the plasma conditions are unchanged.

AB - The erosion of tungsten plasma-facing components due to charge-exchange atoms, predicted to be the dominant cause of the observed W radiation in most JET plasmas with a Be/W wall (formerly ITER-like wall), is quantified by the first EIRENE simulations of the bivariate energy-angular impact spectrum and the incident flux of deuterium and tritium atoms. The tungsten erosion rate due to the bivariate impact spectrum in the JET outer vertical divertor corresponds to a constant effective impact angle of 43 ∘ . Assuming independent univariate energy and angular distributions instead of the bivariate spectrum causes a predicted increase of order 10% in the tungsten influx and the core radiated power. The predicted tungsten sputtering rate due to tritium atoms is 2-6 times the sputtering rate by deuterium atoms in similar edge plasmas. A hypothetical replacement of all JET first-wall materials with tungsten is predicted to raise the total radiated power by 60% in a diverted H-mode scenario if the added radiation is offset by additional heating and the plasma conditions are unchanged.

KW - charge exchange

KW - deuterium

KW - functional expansion tallies

KW - Monte Carlo

KW - sputtering

KW - tritium

KW - tungsten

UR - https://www.scopus.com/pages/publications/105005169398

U2 - 10.1088/1361-6587/add376

DO - 10.1088/1361-6587/add376

M3 - Article

SN - 0741-3335

VL - 67

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

IS - 5

M1 - 055044

ER -

Impact of bivariate energy and angular atomic impact spectra on tungsten erosion in JET

Abstract

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Keywords

OECD Field of Science

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