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The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics
Series 8
Volume 35, 1977 - Issue 3
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Original Articles

Sputtering of gold foils in a high voltage electron microscope A comparison of theory and experiment

D. Cherns University of Sussex
,
M. W. Finnis A.E.R.E., Harwell, Didcot, Oxfordshire, England
&
M. D. Matthews A.E.R.E., Harwell, Didcot, Oxfordshire, England
Pages 693-714 | Received 10 Sep 1976, Published online: 13 Sep 2006

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Samuel Tehuacanero-Cuapa, José Reyes-Gasga, Etienne F. Brès, Rodolfo Palomino-Merino & Ramiro García-García. (2014) Holes drilling in gold and silver decahedral nanoparticles by the convergent beam electron diffraction electron beam. Radiation Effects and Defects in Solids 169:10, pages 838-844.
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W. S. Lai , Y. N. Osetsky & D. J. Bacon . (2005) Point-defect properties of, and sputtering events in, the {001} surfaces of Ni3Al. II. Sputtering events at and near surfaces. Philosophical Magazine 85:16, pages 1687-1700.
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C. Jones, P.J. Grout & A.B. Lidiard. (1999) The heat of transport of vacancies in model fcc solids. Philosophical Magazine A 79:9, pages 2051-2070.
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T.J. Bullough. (1997) Sputtering and the formation of nanometre voids and holes in aluminium in a scanning transmission electron microscope. Philosophical Magazine A 75:1, pages 69-85.
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D.L. Medlin & D.G. Howitt. (1991) The role of sputtering and displacement damage in the electron SCRIBE process. Philosophical Magazine Letters 64:3, pages 133-141.
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W. Sigle, M.L. Jenkins & J.L. Hutchison. (1988) Determination of the nature of stacking-fault tetrahedra in electron-irradiated silver by high-resolution structural imaging. Philosophical Magazine Letters 57:5, pages 267-271.
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DonE. Harrison$suffix/text()$suffix/text(). (1988) Application of molecular dynamics simulations to the study of ion-bombarded metal surfaces. Critical Reviews in Solid State and Materials Sciences 14:sup1, pages s1-s78.
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M.W. Finnis. (1981) A theory of peaks in the time-of-flight spectrum of gold atoms sputtered from a (100) surface. Philosophical Magazine A 43:6, pages 1321-1344.
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D. Cherns. (1977) The surface structure of (111) gold films sputtered in the high voltage electron microscope A theoretical model. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 36:6, pages 1429-1444.
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Articles from other publishers (35)

Keisuke Niwase. (2021) Self-Organized Nanostructures Generated on Metal Surfaces under Electron Irradiation. Quantum Beam Science 5:1, pages 4.
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Yuzi Liu & Yugang Sun. (2015) Electron beam induced evolution in Au, Ag, and interfaced heterogeneous Au/Ag nanoparticles. Nanoscale 7:32, pages 13687-13693.
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William C. Tucker & Patrick K. Schelling. (2014) Analysis of simulation methodology for calculation of the heat of transport for vacancy thermodiffusion. Journal of Applied Physics 116:2.
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Patrick K. Schelling, Jacques Ernotte, Lalit Shokeen, J. Woods Halley & William C. Tucker. (2014) Molecular-dynamics calculation of the vacancy heat of transport. Journal of Applied Physics 116:2.
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K A M Dickens, P J Grout & A B Lidiard. (2011) Computation of heats of transport of vacancies in model crystalline solids: III. Journal of Physics: Condensed Matter 23:26, pages 265401.
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R.F. Egerton, R. McLeod, F. Wang & M. Malac. (2010) Basic questions related to electron-induced sputtering in the TEM. Ultramicroscopy 110:8, pages 991-997.
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V.I. Shulga. (2009) Surface segregation of Ti atoms during NiTi alloy sputtering. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 267:21-22, pages 3524-3527.
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P J Grout & A B Lidiard. (2008) Computation of heats of transport in crystalline solids: II. Journal of Physics: Condensed Matter 20:42, pages 425201.
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Raymond F. Egerton, Feng Wang & Peter A. Crozier. (2005) Beam-Induced Damage to Thin Specimens in an Intense Electron Probe. Microscopy and Microanalysis 12:01, pages 65-71.
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W. Lai, A. Barashev & D. Bacon. (2004) Multiscale modeling of surface sputtering in a scanning transmission electron microscope. Physical Review B 70:19.
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R.F. Egerton, P. Li & M. Malac. (2004) Radiation damage in the TEM and SEM. Micron 35:6, pages 399-409.
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V.I. Shulga. (2000) The density effects in sputtering of amorphous materials. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 170:3-4, pages 347-361.
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V.I. Shulga. (2000) Angular distribution of atoms sputtered from amorphous and polycrystalline targets. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 164-165, pages 733-747.
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Douglas L. Medlin & David G. Howitt. (2011) Radiation damage processes affecting electron beam lithography of inorganic materials. Scanning 14:2, pages 86-90.
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S. Aharon & A. Brokman. (1991) Lattice dynamics study of vibrational modes in gold Σ5[001] twist boundary. Acta Metallurgica et Materialia 39:11, pages 2489-2496.
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N. Tanaka, K. Kimoto & K. Mihama. (1991) Observations by HVEM of atomic clusters embedded in MgO crystals. Ultramicroscopy 39:1-4, pages 395-402.
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Wolfgang EcksteinWolfgang Eckstein. 1991. Computer Simulation of Ion-Solid Interactions. Computer Simulation of Ion-Solid Interactions 108 110 .
Wolfgang EcksteinWolfgang Eckstein. 1991. Computer Simulation of Ion-Solid Interactions. Computer Simulation of Ion-Solid Interactions 169 218 .
D. B. Williams & J. I. Goldstein. 1991. Electron Probe Quantitation. Electron Probe Quantitation 371 398 .
Wolfgang O. Hofer. 1991. Sputtering by Particle Bombardment III. Sputtering by Particle Bombardment III 15 90 .
Wolfhard Möller. 1988. Materials Modification by High-fluence Ion Beams. Materials Modification by High-fluence Ion Beams 151 184 .
William Krakow. (1988) An evaluation of surface roughness of very thin gold films observed by transmission electron microscopy. Surface Science 206:3, pages 495-517.
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R. Najafabadi & G. Kalonji. (1988) Mechanical stability criteria for interatomic potential functions used in computer simulations of materials. Acta Metallurgica 36:4, pages 917-924.
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David J. SmithAmanda K. Petford-LongL. R. WallenbergJ.-O. Bovin. (1986) Dynamic Atomic-Level Rearrangements in Small Gold Particles. Science 233:4766, pages 872-875.
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David J. Smith & Daniel J. Ehrlich. (2011) Electron-beam-stimulated processes at CdS surfaces observed by real-time atomic-resolution electron microscopy. Journal of Materials Research 1:4, pages 560-563.
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Peter C. Townsend. 1983. Sputtering by Particle Bombardment II. Sputtering by Particle Bombardment II 147 178 .
Guy Ayrault & David N. Seidman. (1982) Transmission sputtering of gold thin films by low-energy (<1 keV) xenon ions. I. The system and the measurement. Journal of Applied Physics 53:10, pages 6968-6978.
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M.W. Thompson. (1981) Physical mechanisms of sputtering. Physics Reports 69:4, pages 335-371.
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Mark T. Robinson. 1981. Sputtering by Particle Bombardment I. Sputtering by Particle Bombardment I 73 144 .
D. Cherns. (1979) Sputtering in the high-voltage electron microscope. Surface Science 90:2, pages 339-356.
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M. A. Kirk, R. A. Conner, D. G. Wozniak, L. R. Greenwood, R. L. Malewicki & R. R. Heinrich. (1979) Sputtering of gold by fast neutrons. Physical Review B 19:1, pages 87-100.
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M J Gillan & M W Finnis. (1978) Heat of transport in solids. III. Computer simulation of vacancy in an FCC crystal. Journal of Physics C: Solid State Physics 11:22, pages 4469-4483.
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Steven Dzioba & Roger Kelly. (1978) Recoil implantation from a thin source. Journal of Nuclear Materials 76-77, pages 175-182.
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Guy Ayrault, Robert S. Averback & David N. Seidman. (1978) A new approach for the study of transmission sputtering. Scripta Metallurgica 12:2, pages 119-123.
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J.M. Scalo, P.K. Haff, Z.E. Switkowski & T.A. Tombrello. (1977) Sputtering by fast electrons. Physics Letters B 70:1, pages 137-140.
Crossref

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