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Radiation Effects Volume 43, 1979 - Issue 4-5
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Original Articles

Spike and shock processes in high energy deposition density atomic collision events in solids

G. Carter Department of Electrical Engineering, University of Salford, Salford, M5 4WT
Pages 193-199 | Published online: 19 Aug 2006

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G.D. Alton, D.H. Olive, M.L. Pinkham & J.R. Olive. (1993) A scaled sigmund theory model for determining sputter ratios. Radiation Effects and Defects in Solids 126:1-4, pages 331-336.
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D. Lesueur & A. Dunlop. (1993) Damage creation via electronic excitations in metallic targets part II : A theoretical model. Radiation Effects and Defects in Solids 126:1-4, pages 163-172.
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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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G. Falcone. (1985) Sputtering in the spike regime: The transport mechanism. Radiation Effects 87:2, pages 101-107.
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A. Kolitsch, B. Rauschenbach & E. Richter. (1983) Formation of compositions by implantation in iron. Radiation Effects 76:6, pages 193-202.
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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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N. Hiraoka, Y. Kitazoe & Y. Yamamura. (1982) The Sn 3/2 dependence of non-linear sputtering yields. Radiation Effects 67:1-2, pages 7-12.
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Niels Andersen, Bjarne Andresen & Erling Veje. (1982) Atomic excitations in sputtering processes. Radiation Effects 60:1-4, pages 119-127.
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K.L. Merkle & W. Jäger. (1981) Direct observation of spike effects in heavy-ion sputtering. Philosophical Magazine A 44:4, pages 741-762.
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K.B. Winterbon. (1981) Shock waves in collision cascades. Radiation Effects 57:3, pages 89-92.
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D.A. Thompson. (1981) High density cascade effects. Radiation Effects 56:3-4, pages 105-150.
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G Carter. (1980) A semi quantitative approach to ion impact induced shock processes in solids. Radiation Effects 50:3-6, pages 105-109.
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J.B. Sanders. (1980) Time evolution of collision-induced hot spikes. Radiation Effects 51:1-2, pages 43-48.
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Bernd RauschenbachBernd Rauschenbach. 2022. Low-Energy Ion Irradiation of Materials. Low-Energy Ion Irradiation of Materials 407 480 .
Bernd RauschenbachBernd Rauschenbach. 2022. Low-Energy Ion Irradiation of Materials. Low-Energy Ion Irradiation of Materials 123 174 .
Arnaud Delcorte, Vincent Delmez, Christine Dupont-Gillain, Clément Lauzin, Hannah Jefford, Mykhailo Chundak, Claude Poleunis & Konstantin Moshkunov. (2020) Large cluster ions: soft local probes and tools for organic and bio surfaces. Physical Chemistry Chemical Physics 22:31, pages 17427-17447.
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S. E. Maksimov & B. L. Oksengendler. (2015) Sputtering of atoms during ion bombardment of media containing nanosized particles in the near-surface region. Technical Physics Letters 41:2, pages 187-190.
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Arnaud Delcorte, Oscar A. Restrepo & Bartlomiej Czerwinski. 2013. Cluster Secondary Ion Mass Spectrometry. Cluster Secondary Ion Mass Spectrometry 13 55 .
K. Gärtner, J. Jöhrens, T. Steinbach, C. S. Schnohr, M. C. Ridgway & W. Wesch. (2011) Void formation in amorphous germanium due to high electronic energy deposition. Physical Review B 83:22.
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Hubert Gnaser. 2007. Sputtering by Particle Bombardment. Sputtering by Particle Bombardment 231 328 .
Arnaud Delcorte & Barbara J. Garrison. (2004) Kiloelectronvolt Argon-Induced Molecular Desorption from a Bulk Polystyrene Solid. The Journal of Physical Chemistry B 108:40, pages 15652-15661.
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A. Golanski, J.P. Stoquert, P. Kern, F. Piazza & S. Schulze. (2003) Impact of energy density and stress fields on the nucleation dynamics of plasma deposited a-C:H films. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 206, pages 731-735.
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I.V. Vorobyova. (2002) Three kinds of high-energy Pb ion tracks on the LiF crystal surface at grazing angles of incidence. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 198:3-4, pages 119-128.
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K. J. La Gattuta. 1998. Strongly Coupled Coulomb Systems. Strongly Coupled Coulomb Systems 323 326 .
I.V. Vorobyova. (2001) Interaction of high-energy Pb ions with an island metal film on the surface of a LiF single crystal. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 174:1-2, pages 70-76.
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Robert C. Birtcher, S. E. Donnelly & S. Schlutig. (2000) Nanoparticle Ejection from Au Induced by Single Xe Ion Impacts. Physical Review Letters 85:23, pages 4968-4971.
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G. Carter. (2000) Influence of thermal spikes on preferred grain orientation in ion-assisted deposition. Physical Review B 62:12, pages 8376-8390.
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A. Delcorte & B. J. Garrison. (2000) High Yield Events of Molecular Emission Induced by Kiloelectronvolt Particle Bombardment. The Journal of Physical Chemistry B 104:29, pages 6785-6800.
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Zinetulla Insepov, Rafael Manory, Jiro Matsuo & Isao Yamada. (2000) Proposal for a hardness measurement technique without indentor by gas-cluster-beam bombardment. Physical Review B 61:13, pages 8744-8752.
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H. H. Andersen, A. Brunelle, S. Della-Negra, J. Depauw, D. Jacquet, Y. Le Beyec, J. Chaumont & H. Bernas. (1998) Giant Metal Sputtering Yields Induced by 20–5000 keV/atom Gold Clusters. Physical Review Letters 80:24, pages 5433-5436.
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Dazhi Wang, Xi Wang, Genqin Yang, Xianghui Liu, Yunbuo Jia, Guien Zhou & Guofeng Li. (1995) Phases and structures of nanocrystalline TiN films. Journal of Applied Physics 77:7, pages 2945-2951.
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K.Thomas Waldeer & Herbert M. Urbassek. (1993) keV-atom bombardment of condensed rare gases: molecular dynamics simulation. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 73:1, pages 14-28.
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John F. Mahoney, Julius Perel, Terry D. Lee, P. A. Martino & Peter Williams. (1992) Shock wave model for sputtering biomolecules using massive cluster impacts. Journal of the American Society for Mass Spectrometry 3:4, pages 311-317.
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J. F. Mahoney, J. Perel, S. A. Ruatta, P. A. Martino, S. Husain, Kelsey Cook & T. D. Lee. (2005) Massive cluster impact mass spectrometry: A new desorption method for the analysis of large biomolecules. Rapid Communications in Mass Spectrometry 5:10, pages 441-445.
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V.G. Kapinos, Yu.N. Osetskii & P.A. Platonov. (1989) The cascade mechanism of nucleation of vacancy loops and stacking fault tetrahedra in FCC metals. Journal of Nuclear Materials 165:3, pages 286-296.
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V. I. Shulga, M. Vicanek & P. Sigmund. (1989) Pronounced nonlinear behavior of atomic collision sequences induced by keV-energy heavy ions in solids and molecules. Physical Review A 39:7, pages 3360-3372.
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D. J. Oostra, R. P. van Ingen, A. Haring, A. E. de Vries & F. W. Saris. (1988) Time-of-Flight Measurements of Nonlinear Effects in Sputtering by Dimer Ions. Physical Review Letters 61:12, pages 1392-1395.
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D.B. Chrisey, J.W. Boring, R.E. Johnson & J.A. Phipps. (1988) Molecular ejection from low temperature sulfur by keV ions. Surface Science 195:3, pages 594-618.
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R.E. Johnson. (1987) Mechanisms for the desorption of large organic molecules. International Journal of Mass Spectrometry and Ion Processes 78, pages 357-392.
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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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P.M. Ossi. (1987) Ion-beam-induced amorphization. Materials Science and Engineering 90, pages 55-68.
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I.S. Bitensky & E.S. Parilis. (1987) Shock wave mechanism for cluster emission and organic molecule desorption under heavy ion bombardment. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 21:1-4, pages 26-36.
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Werner H. Gries & Klaus Miethe. (1987) Synergetic effects during sputter-assisted depth profiling: Growth-dominated topography development on InP and a model of the atomic mechanism. Mikrochimica Acta 91:1-6, pages 169-177.
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Roger P. Webb, Don E. HarrisonJr.Jr. & Mario M. Jakas. (1986) The computer simulation of ion induced atomic collision cascades. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 15:1-6, pages 1-7.
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Amarjit Singh, R.A. Lessard & E.J. Knystautas. (1986) IR and x-ray studies of ion-beam-synthesized aluminium nitride films. Thin Solid Films 138:1, pages 79-86.
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Mario M. Jakas & Don E. Harrison. (1985) Many-body effects in atomic-collision cascades. Physical Review Letters 55:17, pages 1782-1785.
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R.P. Webb, D.E. HarrisonJr.Jr. & K.M. Barfoot. (1985) Microscopic phase transitions in molecular dynamics simulations of low energy ion irradiations of metals. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 7-8, pages 143-146.
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Roger P Webb & Don E HarrisonJrJr. (1984) A molecular dynamics computer simulation of the time dependence of surface damage production in ion irradiated metal targets. Vacuum 34:10-11, pages 847-851.
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G Carter. (1984) Some problems and prospects in high erosion yield sputtering. Vacuum 34:10-11, pages 819-824.
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B. Rauschenbach & A. Kolitsch. (1983) Formation of compounds by nitrogen ion implantation in iron. Physica Status Solidi (a) 80:1, pages 211-222.
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B. Rauschenbach, A. Kolitsch & E. Richter. (1983) Formation of AlN by nitrogen ion implantation. Thin Solid Films 109:1, pages 37-45.
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B. Rauschenbach & K. Hohmuth. (1983) Analysis of Heavy-Ion Sputtering Based on the Shock Wave Model. Physica Status Solidi (a) 79:2, pages 395-401.
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K. Hohmuth, B. Rauschenbach, A. Kolitsch & E. Richter. (1983) Formation of compounds by metalloid ion implantation in iron. Nuclear Instruments and Methods in Physics Research 209-210, pages 249-257.
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G. Carter. (1983) Shock-like processes in ion-solid interactions. Nuclear Instruments and Methods in Physics Research 209-210, pages 1-11.
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B. Rauschenbach & K. Hohmuth. (1983) A simple approach to the analysis of ion collision cascade in solids based on the shock wave model. Physica Status Solidi (a) 75:1, pages 159-168.
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B. Rauschenbach & K. Hohmuth. (1982) Bildung amorpher Metall–Metalloid-Verbindungen durch Ionenimplantation. physica status solidi (a) 72:2, pages 667-678.
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G. Carter & W.A. Grant. (1982) Amorphisation of solids by ion implantation. Nuclear Instruments and Methods in Physics Research 199:1-2, pages 17-35.
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Y. Yamamura. (1982) Theory of sputtering and comparison to experimental data. Nuclear Instruments and Methods in Physics Research 194:1-3, pages 515-522.
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Y. Kitazoe, N. Hiraoka & Y. Yamamura. (1981) Hydrodynamical analysis of non-linear sputtering yields. Surface Science 111:3, pages 381-394.
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R. P. Webb & D. E. HarrisonJr.Jr.. (1981) Evidence for ion-induced hypersonic shock waves for computer simulations of argon ion bombardment of copper. Applied Physics Letters 39:4, pages 311-312.
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B. Rauschenbach, E. Richter & K. Hohmuth. (1981) Spinodal decomposition in amorphous boron-implanted iron films. Physica Status Solidi (a) 65:2, pages K103-K105.
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D. A. Thompson. (1981) Application of an extended linear cascade model to the sputtering of Ag, Au, and Pt by heavy atomic and molecular ions. Journal of Applied Physics 52:2, pages 982-989.
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