Effects of size of an oxide layer on the surface properties of lithium irradiated by deuterium plasma

Predrag S. Krstic; Anurag Maan; Richard Majeski; Bruce E. Koel

doi:10.1088/1741-4326/addad6

Effects of size of an oxide layer on the surface properties of lithium irradiated by deuterium plasma

Predrag S. Krstic, Anurag Maan, Richard Majeski, Bruce E. Koel

PPPL Tokamak Expermntl Science

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Abstract

We investigate how growth of an oxide film will influence the deuterium recycling properties of Li on plasma facing surfaces. Lithium films on the walls or plasma-facing material surfaces of a fusion vacuum vessel improves plasma performance in part by removing residual impurity atoms from the plasma. Oxygen atoms, from residual water vapor or eroded oxide surfaces, are a prominent ubiquitous impurity that can create a layer of oxide on lithium films. The results of the work herein also indicate a possibility for determining the thickness of the oxide layer on such Li films by measuring the reflection probability of incident deuterium particles from the surface.

Original language	English (US)
Article number	074001
Journal	Nuclear Fusion
Volume	65
Issue number	7
DOIs	https://doi.org/10.1088/1741-4326/addad6
State	Published - Jul 1 2025

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

Keywords

deuterium plasma
lithium
molecular dynamics
oxide layer
retention

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10.1088/1741-4326/addad6

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title = "Effects of size of an oxide layer on the surface properties of lithium irradiated by deuterium plasma",

abstract = "We investigate how growth of an oxide film will influence the deuterium recycling properties of Li on plasma facing surfaces. Lithium films on the walls or plasma-facing material surfaces of a fusion vacuum vessel improves plasma performance in part by removing residual impurity atoms from the plasma. Oxygen atoms, from residual water vapor or eroded oxide surfaces, are a prominent ubiquitous impurity that can create a layer of oxide on lithium films. The results of the work herein also indicate a possibility for determining the thickness of the oxide layer on such Li films by measuring the reflection probability of incident deuterium particles from the surface.",

keywords = "deuterium plasma, lithium, molecular dynamics, oxide layer, retention",

author = "Krstic, \{Predrag S.\} and Anurag Maan and Richard Majeski and Koel, \{Bruce E.\}",

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AU - Krstic, Predrag S.

AU - Maan, Anurag

AU - Majeski, Richard

AU - Koel, Bruce E.

PY - 2025/7/1

Y1 - 2025/7/1

N2 - We investigate how growth of an oxide film will influence the deuterium recycling properties of Li on plasma facing surfaces. Lithium films on the walls or plasma-facing material surfaces of a fusion vacuum vessel improves plasma performance in part by removing residual impurity atoms from the plasma. Oxygen atoms, from residual water vapor or eroded oxide surfaces, are a prominent ubiquitous impurity that can create a layer of oxide on lithium films. The results of the work herein also indicate a possibility for determining the thickness of the oxide layer on such Li films by measuring the reflection probability of incident deuterium particles from the surface.

AB - We investigate how growth of an oxide film will influence the deuterium recycling properties of Li on plasma facing surfaces. Lithium films on the walls or plasma-facing material surfaces of a fusion vacuum vessel improves plasma performance in part by removing residual impurity atoms from the plasma. Oxygen atoms, from residual water vapor or eroded oxide surfaces, are a prominent ubiquitous impurity that can create a layer of oxide on lithium films. The results of the work herein also indicate a possibility for determining the thickness of the oxide layer on such Li films by measuring the reflection probability of incident deuterium particles from the surface.

KW - deuterium plasma

KW - lithium

KW - molecular dynamics

KW - oxide layer

KW - retention

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Effects of size of an oxide layer on the surface properties of lithium irradiated by deuterium plasma

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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