Surface effects and statistical laws of defects in primary radiation damage: Tungsten vs. iron

Andrea Elisabet Sand; M. J. Aliaga; M. J. Caturla; Kai Henrik Nordlund

doi:10.1209/0295-5075/115/36001

Surface effects and statistical laws of defects in primary radiation damage: Tungsten vs. iron

Andrea Elisabet Sand, M. J. Aliaga, M. J. Caturla, Kai Henrik Nordlund

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We have investigated the effect of surfaces on the statistics of primary radiation damage, comparing defect production in the bcc metals iron (Fe) and tungsten (W). Through molecular dynamics simulations of collision cascades we show that vacancy as well as interstitial cluster sizes follow scaling laws in both bulk and thin foils in these materials. The slope of the vacancy cluster size distribution in Fe is clearly affected by the surface in thin foil irradiation, while in W mainly the overall frequency is affected. Furthermore, the slopes of the power law distributions in bulk Fe are markedly different from those in W. The distinct behaviour of the statistical distributions uncovers different defect production mechanisms effective in the two materials, and provides insight into the underlying reasons for the differing behaviour observed in TEM experiments of lowdose ion irradiation in these metals. Copyright (C) EPLA, 2016

Alkuperäiskieli	Englanti
Julkaisu	Europhysics Letters
DOI - pysyväislinkit	https://doi.org/10.1209/0295-5075/115/36001
Tila	Julkaistu - elok. 2016
OKM-julkaisutyyppi	A1 Julkaistu artikkeli, soviteltu

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10.1209/0295-5075/115/36001

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https://researchportal.helsinki.fi/en/publications/1a7c327f-602a-46d5-8a76-3640ce1e6ef4

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title = "Surface effects and statistical laws of defects in primary radiation damage: Tungsten vs. iron",

abstract = "We have investigated the effect of surfaces on the statistics of primary radiation damage, comparing defect production in the bcc metals iron (Fe) and tungsten (W). Through molecular dynamics simulations of collision cascades we show that vacancy as well as interstitial cluster sizes follow scaling laws in both bulk and thin foils in these materials. The slope of the vacancy cluster size distribution in Fe is clearly affected by the surface in thin foil irradiation, while in W mainly the overall frequency is affected. Furthermore, the slopes of the power law distributions in bulk Fe are markedly different from those in W. The distinct behaviour of the statistical distributions uncovers different defect production mechanisms effective in the two materials, and provides insight into the underlying reasons for the differing behaviour observed in TEM experiments of lowdose ion irradiation in these metals. Copyright (C) EPLA, 2016",

author = "Sand, {Andrea Elisabet} and Aliaga, {M. J.} and Caturla, {M. J.} and Nordlund, {Kai Henrik}",

year = "2016",

month = aug,

doi = "10.1209/0295-5075/115/36001",

language = "English",

journal = "EPL",

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T1 - Surface effects and statistical laws of defects in primary radiation damage

T2 - Tungsten vs. iron

AU - Sand, Andrea Elisabet

AU - Aliaga, M. J.

AU - Caturla, M. J.

AU - Nordlund, Kai Henrik

PY - 2016/8

Y1 - 2016/8

N2 - We have investigated the effect of surfaces on the statistics of primary radiation damage, comparing defect production in the bcc metals iron (Fe) and tungsten (W). Through molecular dynamics simulations of collision cascades we show that vacancy as well as interstitial cluster sizes follow scaling laws in both bulk and thin foils in these materials. The slope of the vacancy cluster size distribution in Fe is clearly affected by the surface in thin foil irradiation, while in W mainly the overall frequency is affected. Furthermore, the slopes of the power law distributions in bulk Fe are markedly different from those in W. The distinct behaviour of the statistical distributions uncovers different defect production mechanisms effective in the two materials, and provides insight into the underlying reasons for the differing behaviour observed in TEM experiments of lowdose ion irradiation in these metals. Copyright (C) EPLA, 2016

AB - We have investigated the effect of surfaces on the statistics of primary radiation damage, comparing defect production in the bcc metals iron (Fe) and tungsten (W). Through molecular dynamics simulations of collision cascades we show that vacancy as well as interstitial cluster sizes follow scaling laws in both bulk and thin foils in these materials. The slope of the vacancy cluster size distribution in Fe is clearly affected by the surface in thin foil irradiation, while in W mainly the overall frequency is affected. Furthermore, the slopes of the power law distributions in bulk Fe are markedly different from those in W. The distinct behaviour of the statistical distributions uncovers different defect production mechanisms effective in the two materials, and provides insight into the underlying reasons for the differing behaviour observed in TEM experiments of lowdose ion irradiation in these metals. Copyright (C) EPLA, 2016

UR - https://researchportal.helsinki.fi/en/publications/1a7c327f-602a-46d5-8a76-3640ce1e6ef4

U2 - 10.1209/0295-5075/115/36001

DO - 10.1209/0295-5075/115/36001

M3 - Article

JO - EPL

JF - EPL

SN - 0295-5075

ER -

Surface effects and statistical laws of defects in primary radiation damage: Tungsten vs. iron

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