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Philosophical Magazine A Volume 43, 1981 - Issue 1
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Original Articles

Single atom sputtering events Direct observation of near-surface depleted zones in ion-irradiated tungsten

Michael I. Current Cornell University, Department of Materials Science and Engineering and the Materials Science Center, Bard Hall, Ithaca, New York, 14853, U.S.A.
,
Ching-Yeu Wei General Electric Corporate Research and Development Laboratory, Schenectady, New York, 12305, U.S.A.
&
David N. Seidman Cornell University, Department of Materials Science and Engineering and the Materials Science Center, Bard Hall, Ithaca, New York, 14853, U.S.A.
Pages 103-138 | Received 22 Apr 1980, Accepted 05 Jun 1980, Published online: 27 Sep 2006

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T. Diaz de la Rubia, M.W. Guinan, A. Caro & P. Scherrer. (1994) Radiation effects in FCC metals and intermetallic compounds: A molecular dynamics computer simulation study. Radiation Effects and Defects in Solids null:1, pages 39-54.
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DonE. Harrison$suffix/text()$suffix/text(). (1983) Sputtering models—A synoptic view. Radiation Effects 70:1-4, pages 1-64.
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JohnH. Kinney & M.W. Guinan. (1982) Computer simulation of surface effects on defect production in tungsten. Philosophical Magazine A 46:5, pages 789-800.
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Ching-Yeu Wei, MichaelI. Current & DavidN. Seidman. (1981) Direct observation of the primary state of damage of ion-irradiated tungsten I. Three-dimensional spatial distribution of vacancies. Philosophical Magazine A 44:2, pages 459-491.
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Ching-Yeu Wei & DavidN. Seidman. (1981) The spatial distribution of self-interstitial atoms around depleted zones in tungsten ion-irradiated at 10 K. Philosophical Magazine A 43:6, pages 1419-1439.
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Articles from other publishers (23)

Michael I. Current, Hideto Fujibuchi, Takahiko Ido, John Schuur & Max Slaton. (2022) Ion erosion and particle release in fine graphite. MRS Advances 7:36, pages 1450-1453.
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Kan Ma, Brigitte Décamps, Anna Fraczkiewicz, Thomas Jourdan, Frédéric Prima & Marie Loyer-Prost. (2021) Free surface impact on radiation damage in pure nickel by in-situ self-ion irradiation: can it be avoided?. Acta Materialia 212, pages 116874.
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A. E. Sand, M. J. Aliaga, M. J. Caturla & K. Nordlund. (2016) Surface effects and statistical laws of defects in primary radiation damage: Tungsten vs. iron. EPL (Europhysics Letters) 115:3, pages 36001.
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X. Yi, A. E. Sand, D. R. Mason, M. A. Kirk, S. G. Roberts, K. Nordlund & S. L. Dudarev. (2015) Direct observation of size scaling and elastic interaction between nano-scale defects in collision cascades. EPL (Europhysics Letters) 110:3, pages 36001.
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Y. Zhong, K. Nordlund, M. Ghaly & R. S. Averback. (1998) Defect production in tungsten: A comparison between field-ion microscopy and molecular-dynamics simulations. Physical Review B 58:5, pages 2361-2364.
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T. Diaz de la Rubia & W.J. Phythian. (1992) Molecular dynamics studies of defect production and clustering in energetic displacement cascades in copper. Journal of Nuclear Materials 191-194, pages 108-115.
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R. Rauch, J. Peisl, A. Schmalzbauer & G. Wallner. (1989) Correlation of interstitials within defect cascades in Al(Zn) and Cu observed by diffuse X-Ray scattering. Journal of Nuclear Materials 168:1-2, pages 101-108.
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M. Hou. (1989) Fuzzy clustering methods: An application to atomic displacement cascades in solids. Physical Review A 39:6, pages 2817-2828.
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J. Jagielski, A. Turos & A. Dygo. (1988) Effect of the collision cascade structure on the lattice site occupation of lead atoms implanted into iron. Physics Letters A 133:1-2, pages 75-78.
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D. N. Seidman, R. S. Averback & K. Benedek. (2006) Displacement Cascades. Dynamics and Atomic Structure. physica status solidi (b) 144:1, pages 85-104.
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Peter Sigmund. (1987) Mechanisms and theory of physical sputtering by particle impact. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 27:1, pages 1-20.
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C Jaouen, J Delafond & J P Riviere. (1987) Crystalline to amorphous transformation in NiAl: ion irradiation studies in relation to cascade parameters. Journal of Physics F: Metal Physics 17:2, pages 335-350.
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Dipankar Pramanik & David N. Seidman. (1986) Atomic resolution study of displacement cascades in ion-irradiated platinum. Journal of Applied Physics 60:1, pages 137-150.
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M. Hou. (1985) Individual collision cascades in static bcc polycrystals. Physical Review B 31:7, pages 4178-4186.
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D. E. HarrisonJr.Jr., W. A. Mason & R. P. Webb. 1984. Secondary Ion Mass Spectrometry SIMS IV. Secondary Ion Mass Spectrometry SIMS IV 24 30 .
Dipankar Pramanik & David N. Seidman. (1983) Atomic resolution observations of nonlinear depleted zones in tungsten irradiated with metallic diatomic molecular ions. Journal of Applied Physics 54:11, pages 6352-6367.
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H. de Waard & G. L. Zhang. (1983) Vacancy trapping and helium decoration in Sb ion-implanted tungsten studied by Mössbauer spectroscopy. Hyperfine Interactions 14:3, pages 211-220.
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C.E. Klabunde & R.R. ColtmanJr.Jr.. (1982) Fission neutron damage rates and efficiencies in several metals. Journal of Nuclear Materials 108-109, pages 183-193.
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David N. Seidman, Michael I. Current, Dipankar Pramanik & Wei Ching-Yeu. (1982) Atomic resolution observations of the point defect structure of depleted zones in ion-irradiated metals. Journal of Nuclear Materials 108-109, pages 67-68.
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R.S. Averback. (1982) Ion-irradiation studies of cascade damage in metals. Journal of Nuclear Materials 108-109, pages 33-45.
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Don E. HarrisonJr.Jr. & Roger P. Webb. (1982) A molecular dynamics simulation study of the influence of the lattice atom potential function upon atom ejection processes. Journal of Applied Physics 53:6, pages 4193-4201.
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Brian Ralph, S.A. Hill, M.J. Southon, M.P. Thomas & A.R. Waugh. (1982) The investigation of engineering materials using atom-probe techniques. Ultramicroscopy 8:3, pages 361-375.
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Don E. HarrisonJr.Jr.. (1981) A molecular dynamics simulation study of the influence of the ion mass upon atom ejection processes. Journal of Applied Physics 52:6, pages 4251-4258.
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