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Critical Reviews in Solid State and Materials Sciences Volume 19, 1994 - Issue 2
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Original Articles

Sputtering of compound semiconductor surfaces. I. Ion-solid interactions and sputtering yields

Johan B. Malherbe Department of Physics, University of Pretoria, Pretoria, 0002, South Africa
Pages 55-127 | Published online: 24 Oct 2006

References

  • Fetch , S. B. , Brennan , R. , Corcoran , S. F. and Webster , G. 1993 . A comparison of three techniques for profiling ultrashallow p+-n junctions. . Solid State Technol. , 36 : 45
  • Biersack , J. P. 1980 . A Monte Carlo computer program for the transport of energetic ions in amorphous targets . Nucl. Instrum. Method. , 174 : 257
  • Ziegler , J. F. TRIM , Yorktown, NY : The Transport of Ions in Mater, IBM Research 28-0 . 10598
  • Yamamura , Y. and Vfuramoto , T. 1992 . Depth profiles and energy properties of big cluster impacts on amorphous targets . Nucl. Instrum. Method , B72 : 331
  • Zalm , P. C. 1986 . Ion-beam assisted etching of semiconductors . Vacuum , 36 : 787
  • Zalm , P. C. , Beckers , L. J. and Sanders , F. H. M. 1983 . On the role of physical sputtering in reactive ion bean etching . Nucl. Instrum. Method , 289/210 : 561
  • Johnson , L. F. 1984 . “ Ion beam microstructure fabrication in optical, magnetic and surface acoustical technologies ” . In Ion Bombardment Modification of Surfaces , Edited by: Auciello , O. and Kelly , R. 361 Amsterdam : Elsevier . Chap. 9
  • Donnelly , V. M. , Ibbotson , D. E. and Flamm , D. L. 1984 . “ Fundamental aspects of plasma-surface interactions and the etching progress ” . In Ion Bombardment Modification of Surfaces , Edited by: Auciello , O. and Kelly , R. 323 Amsterdam : Elsevier . Chap. 8
  • Pearton , S. J. 1991 . Dry-etching techniques and chemistries for III-V semiconductors . Mater. Sci. Eng. , B10 : 187
  • Dzioba , S. 1986 . “ Reactive ion etching of GaAs and related III-V compounds ” . In Erosion and Growth of Solids Stimulated by Atom and Ion Beams , Edited by: Kiriakidis , G. , Carter , G. and Whitton , J. 297 Dordrecht : Martinus Nijhoff .
  • Gamo , K. and Namba , S. 1990 . Ion beam assisted etching and deposition . J. Vac. Sci. Technol. , B8 : 1927
  • Zalm , P. C. , Kolfschoten , A. W. , Sanders , F. H. M. and Vischer , P. 1987 . Surface processes in ion-induced etching . Nucl. Instrum. Method , B18 : 625 12a. Malherbe, J. B., Sputtering of compound semiconductors. II. Compositional changes, radiation-induced topography and damage, Crit. Rev. Solid State Mater. Sci., 1994.
  • Rabalais , J. W. and Marton , D. 1992 . Atomic collisions in surface chemistry and film deposition . Nucl. Instrum. Method , B67 : 287
  • Rabalais , J. W. 1990 . Scattering and recoiling spectrom-etry: an ion's view of surface structure . Science , 250 : 521
  • Rabalais , J. W. 1982 . Ion induced surface alterations due to electronic charge exchange and chemical reactions . Israel J. Chem. , 22 : 365
  • Sigmund , P. 1969 . Theory of sputtering. I. Sputtering yield of amorphous and polycrystalline targets . Phys. Rev. , 184 : 383
  • Thompson , D. A. 1981 . High density cascade effects . Rad. Eff. , 56 : 105
  • Sigmund , P. 1977 . “ Sputtering processes: collision cascades and spikes ” . In Inelastic Ion-Surface Collisions , Edited by: Tolk , N. H. , Tully , T. J. , Heiland , W. and White , C. W. 121 New York : Academic Press .
  • Brinkman , J. A. 1954 . On the nature of radiation damage in metals . J. Appl. Phys. , 25 : 961
  • Brinkman , J. A. 1956 . Production of atomic displacements by high-energy particles . Am. J. Phys. , 24 : 246
  • Thompson , M. W. 1981 . Physical mechanisms of sputtering . Phys. Rep. , 69 : 335
  • Sigmund , P. 1974 . Energy density and time constant of heavy-ion-induced elastic-collision spikes in solids . Appl. Phys. Lett. , 25 : 169 27, 52, 1975.
  • Sigmund , P. 1981 . “ Sputtering by ion bombardment: theoretical concepts ” . In Sputtering by Particle Bombardment., I , Edited by: Behrisch , R. Berlin : Springer-Verlag . Chap. 2
  • Kelly , R. 1979 . Thermal effects in sputtering . Surf. Sci. , 90 : 280
  • Kelly , R. 1980 . On the problem of whether mass or chemical bonding is more important to bombardment-induced compositional changes in alloys and oxides . Surf. Sci. , 100 : 85
  • Gratton , L. M. , Miotello , A. and Tosello , C. 1988 . Thermal spike regime during ion implantation: new aspects. . Defect Diff. Forum , 57–58 : 221
  • Friedland , E. , le Rous , G. and Malherbe , J. B. 1986 . Deep radiation damage in copper after ion implantation. . Rod. Eff. Lett. , 87 : 281
  • Friedland , E. , Malherbe , J. H. , Alberts , H. W. , Vorster , R. E. and Prins , J. F. 1986 . Damage profiles in copper single crystals after ion implantation . S. Afr. J. Phys. , 9 : 135
  • Friedland , E. , Alberts , H. W. and Fletcher , M. 1990 . Temperature dependence of damage ranges in some metals after argon implantation . Nucl. Instrum. Method , B45 : 492
  • Malherbe , J. B. , Weimer , K. P. , Friedland , E. , Bredeli , L. J. and Fletcher , M. 1992 . Silicon ion bombardment of Sb/Si contacts . Surf. Interface Anal. , 19 : 341
  • Thompson , M. W. 1979 . Mechanisms of sputtering. . Nature. , : 277
  • Andersen , H. H. 1979 . The depth resolution of sputter profiling . Appl. Phys. , 18 : 131
  • Andersen , H. H. and Bay , H. L. 1975 . Heavy-ion sputtering yields of gold: further evidence of nonlinear effects . J. Appl. Phys. , 46 : 2416
  • Malherbe , J. B. , Weimer , K. P. , Friedland , E. and Bredell , L. J. 1993 . The activation energy of electrical conduction of ion beam mixed Sb/n-Si Schottky contacts. . Nucl. Instrum. Method , B80/81 : 670
  • Paprocki , K. , Brylowska , I. , Andrä , W. and Krynicki , J. 1989 . Recoil implantation from Sb thin films under ion bombardment . Phys. Stat. Sol., (a) , 112 : 301
  • Grob , A. , Grob , J. J. , Mesli , N. , Salles , D. and Siffert , P. 1981 . Recoil implantation of antimony into silicon. . Nucl. Instrum. Method , 182/183 : 85
  • Cheng , Y.-T. 1990 . Thermodynamic and fractal geometric aspects of ion-solid interactions . Mater. Sci. Rep. , 5 : 45
  • Johnson , W. L. , Cheng , Y. T. , van Rossum , M. and Nicolet , M.-A. 1985 . When is thermodynamics relevant to ion-induced atomic rearrangements in metals? . Nucl. Instrum. Method , B7/8 : 657
  • de Boer , F. R. , Boom , R. , Mattens , W. C. M. , Miedema , A. R. and Niessen , A. K. 1988 . Cohesion in Metals: Transition Metal Alloys , Amsterdam : North-Holland .
  • Thompson , M. W. and Nelson , R. S. 1962 . Evidence for heated spikes in bombarded gold from the energy spectrum of atoms ejected by 43 keV Ar- and Xe-ions . Phil. Mag. , 7 : 2015
  • Thompson , D. A. and Johar , S. S. 1979 . Nonlinear sputtering effects in thin metal films . Appl. Phys. Lett. , 34 : 342
  • Ellegaard , O. , Schou , J. , Stenum , B. , Sorensen , H. and Pedrys , R. 1992 . Sputtering yields and energy distributions from nonoverlapping subspikes in ion bombarded volatile solids . Nucl. Instrum. Method , B62 : 447
  • Cheng , Y.-T. , Zhao , X.-A. , Banwell , T. , Workman , T. W. , Nicolet , M.-A. and Johnson , W. L. 1986 . Correlation between the cohesive energy and the onset of radiation-enhanced diffusion in ion mixing . J. Appl. Phys. , 60 : 2615
  • Hofmann , S. and Mader , W. 1990 . Determination of the atomic mixing layer in sputter profiling of Ta/Si multilayers by TEM and AES . Surf. Interface Anal. , 15 : 794
  • Was , G. S. 1990 . Ion beam modification of metals: compositional and microstructural changes . Prog. Surf. Sci. , 32 : 211
  • Schulz , F. and Wittmaack , K. 1976 . Model calculation of ion collection in the presence of sputtering . Rad. Eff. , 29 : 31
  • Biersack , J. P. 1973 . Depth distributions of implanted atoms under the influence of surface erosion and diffusion . Rad. Eff. , 19 : 249
  • Krimmel , E. F. and Pfleiderer , H. 1973 . Implantation profiles modified by sputtering . Rad. Eff. , 19 : 83
  • Tsai , J. C. C. and Morabito , J. M. 1974 . The mechanism of simultaneous implantation and sputtering by high-energy oxygen ions during secondary ion mass spectrometry (SIMS) analysis. . Surf. Sci. , 44 : 243
  • Collins , R. and Carter , G. 1975 . The spatial distribution of ions implanted into solid subject to diffusion and surface sputtering . Rad. Eff. , 26 : 181
  • Gries , W. H. 1985 . Ion implantation in the surface analysis of solid materials . Mikrochimica Acta [Wien], Suppl , 11 : 33
  • Gries , W. H. 1992 . Preparation and certification of ion-implanted reference materials: a critical review . Pure Appl. Chem. , 64 ( 4 ) : 545
  • Deb , S. K. and Sood , D. K. 1983 . A model for blister exfoliation . Rad. Eff. , 70 : 275
  • Auciello , O. 1984 . “ Historical overview of ion-induced morphological modification of surfaces ” . In Ion Bombardment Modification of Surfaces , Edited by: Auciello , O. and Kelly , R. 1 Amsterdam : Elsevier . Chap. 1
  • Scherzer , B. M. U. 1986 . “ Bubbles, blisters and exfoliation, in Erosion and Growth of Solids Stimulated by Atom and lon Beams ” . Edited by: Kiriakidis , G. , Carter , G. and Whitton , J. L. 222 Dordrecht : Martinus Nijhoff Publishers .
  • Scherzer , B. M. U. 1983 . “ Development of surface topography due to gas ion implantation ” . In Sputtering by Particle Bombardment II , Edited by: Behrisch , R. Berlin : Springer-Verlag . Chap. 7
  • Taglauer , E. and Beitat , U. 1982 . Ion impact desorption mechanisms and energy distributions . J. Nucl. Mater. , 11–112 : 800
  • Sagara , A. and Kamada , K. 1982 . Compilation and evaluation of ion impact desorption cross-section . J. Nucl. Mater. , 111–112 : 812
  • Barker , R. A. , Mayer , T. M. and Burton , R. H. 1982 . Surface composition and etching of IH-V semiconductors in Cℓ2 ion beams . Appl. Phys. Lett. , 40 : 583
  • Mutoh , K. , Nakajima , M. and Minara , M. 1990 . Reactive ion-beam etching of InP with Cl2 . Jpn. J. Appl. Phys. , 29 : 1022
  • Roth , J. 1983 . “ Chemical sputtering ” . In Sputtering by Particle Bombardment II , Edited by: Behrisch , R. Berlin : Springer-Verlag . Chap. 3
  • Behrisch , R. , Maderiechner , G. , Scherzer , B. M. U. and Robinson , M. T. 1979 . The sputtering mechanism for low-energy light ions . Appl. Phys. , 18 : 391
  • Grove , W. R. 1953 . On some anomalous cases of electrical decomposition . Phil. Mag. , 5 : 203
  • Wehner , G. K. 1956 . Controlled sputtering of metals by low-energy Hg ions . Phys. Rev. , 102 : 690
  • Behrisch , R. 1981 . Sputtering by Particle Bombardment I , Berlin : Springer .
  • Behrisch , R. 1983 . Sputtering by Particle Bombardment II , Berlin : Springer .
  • Behrisch , R. and Wittmaack , K. 1991 . Sputtering by Particle Bombardment III , Berlin : Springer .
  • Sean , M. P. 1981 . Pure element sputtering yields using 500 to 1000 eV argon ions . Thin Solid Films , 81 : 279
  • Mashkova , E. S. and Molchanov , V. A. 1989 . Some of the current trends in the studies of sputtering . Rad. Eff. , 108 : 307
  • Lam , N. Q. 1990 . Physical sputtering of metallic systems by charged-particle impact. . Scanning Microsc. , Suppl. 4 : 311
  • Andersen , H. H. 1987 . Computer simulations of atomic collisions in solids with special emphasis on sputtering . Nucl. Instrum. Method , B18 : 321
  • Sigmund , P. and Szymonski , M. 1984 . Temperature-dependent sputtering of metals and insulators . Appl. Phys. , A33 : 141
  • Johnson , R. E. and Sundqvist , B. U. R. 1992 . Electronic sputtering: from atomic physics to continuum mechanics . Physics Today , : 28
  • Sigmund , P. 1987 . Mechanisms and theory of physical sputtering by particle impact. . Nucl. Instrum. Method , B27 : 1
  • Andersen , H. H. 1988 . Sputtering from atomic-collision cascades . Nucl. Instrum. Method , B33 : 466
  • Zalm , P. C. 1988 . Quantitative sputtering . Surf, Interface Anal. , 11 : 1
  • Andersen , H. H. and Bay , H. L. 1981 . “ Sputtering yield measurements ” . In Sputtering by particle bombardment I , Berlin : Springer-Verlag . Chap. 4
  • Hotston , E. 1975 . Threshold energies for sputtering . Nucl. Fusion , 15 : 544
  • Bohdansky , J. , Roth , J. and Bay , H. L. 1980 . An analytical formula and important parameters for low-energy ion sputtering . J. Appl. Phys. , 51 : 2861
  • Zalm , P. C. 1984 . Some useful yield estimates for ion beam sputtering and ion plating at low bombarding energies . J. Vac. Sci. Technol. , B2 : 151
  • Yamamura , Y. , Matsunami , N. and Itoh , N. 1983 . Theoretical studies on an empirical formula for sputtering yield at normal incidence . Rad. Eff. , 71 : 65
  • Roth , J. , Eckstein , W. , Gauthier , E. and Laszlo , J. 1991 . Sputtering of low-Z materials . J. Nucl. Mater. , 179–181 : 34
  • Yamamura , Y. and Mizuno , Y. 1984 . Computer studies on bombarding-angle dependence of threshold energy of sputtering yields . J. Nucl. Mater. , 128–129 : 559
  • Yamamura , Y. and Bohdansky , J. 1985 . Few collisions approach for threshold sputtering. . Vacuum , 35 : 561
  • Harrison , D. E. Jr. and Magnuson , G. D. 1961 . Sputtering thresholds . Phys. Rev. , 122 : 1421
  • Bay , H. L. , Roth , J. and Bohdansky , J. 1977 . Light-ion sputtering yields for molybdenum and gold at low energies . J. Appl. Phys. , 48 : 4722
  • Stuart , R. V. and Wehner , G. K. 1960 . Sputtering thresholds and displacement energies . Phys. Rev. Lett. , 4 : 409
  • Roth , J. 1990 . Sputtering of limiter and diverter materials . J. Nucl. Mater. , 176–177 : 132
  • Yamamura , Y. 1984 . Threshold energies of light-ion sputtering and heavy-ion sputtering as a function of angle of incidence. . Nucl. Instrum. Method , B2 : 627
  • Arthur , J. R. 1967 . Vapor pressures and phase equilibria in the Ga-As system . J. Phys. Chem. Solids , 28 : 2257
  • Sirota , N. N. 1968 . “ Heats of formation and temperatures and heats of fusion of compounds AIII Bv ” . In Semiconductors and Semimetals: Physics of III-V Compounds , San Diego : Academic Press . Chap. 2
  • Maruno , S. , Morishita , Y. , Isu , T. , Nomura , Y. and Ogata , H. 1988 . Growth mechanisms of molecular beam epitaxy of InP and GaAsxP1−x using a low-energy P+-ion beam. . Surf. Sci. , 201 : 335
  • Yu , J.-Z. , Hara , T. , Hamagaki , M. , Yoshinaga , T. , Aoyagi , Y. and Namba , S. 1988 . High-rate ion etching of GaAs and Si at low ion energy by using an electron beam excited plasma system . J. Vac. Sci. Technol. , B6 : 1626
  • Greene , J. E. , Barnett , S. A. , Cadien , K. C. and Ray , M. A. 1982 . Growth of single crystal GaAs and meta-stable (GaSb), 1−xGex alloys by sputter deposition: ion-surface interaction effects . J. Cryst. Growth , 56 : 389
  • Haase , V. , Kirschtein , G. , List , H. , Ruprecht , S. , Sangster , R. , Schröder , F. , Töpper , W. , Vanecek , H. , Heat , W. and Schlichting , J. “ SI silicon ” . In Gmelin Handbook of Inorganic Chemistry , 8th ed. Edited by: Katscher , H. , Sangster , R. , Chief and Schröder , F. Vol. B3 , 163ff Berlin : System Number 15, Springer .
  • Moses , A. J. 1978 . The Practicing Scientist's Handbook , New York : Van Nostrand Reinhold . Chap. IX
  • Roth , J. , Bohdansky , J. and Martinelli , A. P. 1980 . Low energy light ion sputtering of metals and carbides . Rad. Eff. , 48 : 213
  • Bohdansky , J. 1984 . Sputtering, Nuclear Fusion (Special Issue) , : 61
  • Zalm , P. C. 1983 . Energy dependence of the sputtering yield of silicon bombarded with neon, argon, krypton and xenon ions . J. Appl. Phys. , 54 : 2660
  • Steinbriichel , Ch. 1985 . A simple formula for low-energy sputtering yields . Appl. Phys. , A36 : 37
  • Cries , H. H. and Strydom , H. J. 1984 . A practical table of sputtering yields for the non-expert user . Fres. Z. Anal. Chem. , 319 : 727
  • Strydom , H. J. and Gries , W. H. 1984 . A comparison of three versions of Sigmund's model of sputtering using experimental results . Rad. Eff. Lett. , 86 : 145
  • Strydom , H. J. and Gries , W. H. 1984 . “ A table of normalized sputtering yields for mono-elemental polycrys-talline targets ” . Pretoria, , South Africa : SMAT3, Materials Characterization Division, Council for Scientific and Industrial Research .
  • Thompson , M. W. 1968 . The energy spectrum of ejected atoms during the high energy sputtering of gold . Phil. Mag. , 18 : 377
  • Oechsner , H. 1975 . Sputtering — a review of some recent experimental and theoretical aspects . Appl. Phys. , 8 : 185
  • Oechsner , H. 1973 . Untersuchungen zur Festkörperzerstäubung bei Schiefwinkligem lonenbeschub Polykristalliner Metalloberflächen im Energiebereich μm l keV . Z. Phys. , 261 : 37
  • Yamamura , Y. 1984 . A simple analysis of the angular dependence of light-ion sputtering . Nucl. Instrum. Method , B2 : 578
  • Kelly , R. 1987 . The surface binding energy in slow collisional sputtering. . Nucl. Instrum. Method , B18 : 388
  • Jackson , D. P. 1973 . Binding energies in cubic metal surfaces . Rad. Eff. , 18 : 185
  • Srivastava , G. P. and Weaire , D. 1987 . The theory of the cohesive energies of solids . Adv. Phys. , 36 : 463
  • Comas , J. and Cooper , C. B. 1967 . Mass-spectrometric study of sputtering of single crystals of GaAs by low-energy A ions . J. Appl. Phys. , 38 : 2956
  • Cooper , C. B. 1968 . Low-energy sputtering (Final report. May 1965 to Dec. 1967), Number: Ad-671049 Contract Number: Da-18–001-AMC-748(X), U. S. Govt. Clearinghouse Number: Ad-671049
  • Szymoνski , M. and Bhattacharya , R. S. 1979 . The sputtering of gallium arsenide at elevated temperatures . Appl. Phys. , 20 : 207
  • Sielanko , J. and Sowa , M. 1983 . The influence of radiation damage on the sputtering yield of silicon . Nucl. Instrum. Method , 209/210 : 483
  • Jackson , D. P. 1975 . Surface ejection in single crystal sputtering . Can. J. Phys. , 53 : 1513
  • Kelly , R. and Harrison , D. E. 1985 . A summary of the theory of the preferential sputtering of alloys . Mater. Sci. Eng. , 69 : 449
  • Kelly , R. and Oliva , A. 1986 . “ The theory of the preferential sputtering of alloys, including the role of Gibbsian segregation ” . In Erosion and Growth of Solids Stimulated by Atom and Ion Beams , Edited by: Kiriakidis , G. , Carter , G. and Whitton , J. L. 41 Dordrecht : Martinus Nijhoff .
  • Garrison , B. J. , Winograd , N. , Tombrello , D. , LO , T. A. , Shapiro , M. H. and Harrison , D. E. Jr. 1987 . Energy cost to sputter an atom from a surface in ke V ion bombardment processes . Surf. Sci. , 180 : L129
  • Cries , W. H. 1975 . A formula for the secondary ion field fraction emitted through an energy window . Int. J. Mass Spectromet. Ion Phys. , 17 : 77
  • Tseng , T. T. 1990 . Energetics of surface atomic processes . Surf. Sci. , 231 : 18
  • Tsong , T. T. , Liou , Y. and Liu , J. 1989 . Surface analysis with pulsed-laser stimulated field desorption . J. Vac. Sci. Technol. , A7 : 1758
  • Liu , J. , Wu , C. and Tsong , T. T. 1991 . Measurement of the atomic site specific binding energy of surface atoms of metals and alloys. . Surf. Sci. , 246 : 157
  • Liu , J. , Wu , C. and Tsong , T. T. 1991 . Measurement of the binding energy of kink-site atoms of metals and alloys . Phys. Rev. , B43 : 11595
  • Reynolds , G. W. , Vozzo , F. R. , Alias , R. G. , Knudson , A. R. , Lambert , J. M. and Treado , P. A. 1982 . The surface behavior of a binary alloy during production by ion implantation . Mater. Res. Soc. Symp. Proc. , 7 : 51
  • Reynolds , G. W. 1983 . A model of the surface binding energy for fee copper-nickel alloy . Nucl. Instrum. Method , 209/210 : 57
  • Reynolds , G. W. , Vozzo , F. R. , Alias , R. G. , Treado , P. A. and Lambert , J. M. 1984 . The surface binding energy for a ternary alloy produced by ion implantation . Nucl. Instrum. Method , B2 : 804
  • Kerr , J. A. 1992 . “ Strength of chemical bonds ” . In Handbook of Chemistry and Physics , Edited by: Lide , D. R. 9 Boca Raton : CRC Press .
  • De Maria , G. , Gingerich , K. A. and Piacente , V. 1968 . Vaporization of aluminium phosphide . J. Chem. Phys. , 49 : 4705
  • Hahn , H. and Juza , R. 1940 . Untersuchungen über die Nitride von Cadmium, Gallium, Indium und Germanium . Z. Anorg. Allgem. Chemie , 244 : 111
  • Garbato , L. , Msnca , P. and Mula , G. 1973 . Electronic properties of AIIBVI semiconductors . J. Phys. C: Solid State Phys. , 6 : L441
  • Zdanowicz , W. 1983 . “ in Landolt — Börnstein: Group III ” . In Crystal and Solid State Physics, Semiconductors Edited by: Hellwege , K.-H. , Madelung , O. S. , Schulz , M. and Weiss , H. Vol. 17 , 506
  • Colin , R. and Drowart , J. 1964 . Thermodynamic study of germanium monotelluride using a mass spectrometer . J. Phys. Chem. , 68 : 428
  • Zozime , A. and Cohen-Solal , G. 1981 . Sputtering yield of CdxHg1−xTe bombarded by mercury ions . Thin Solid Films , 76 : 273
  • Lyons , V. J. and Silvestri , V. J. 1960 . Solid-vapor equilibria for the compounds Cd3As2 and CdAs2 . J. Phys. Chem. , 64 : 266
  • Westmore , J. B. , Mann , K. H. and Tickner , A. W. 1964 . Mass spectrometric study of the nonstoichiometric vaporization of cadmium arsenide . J. Phys. Chem. , 68 : 606
  • Lyons , V. J. 1959 . The dissociation pressure of ZnAs2 . J. Chem. Phys. , 63 : 1142
  • Biersack , J. P. and Ziegler , J. F. 1982 . Refined universal potentials in atomic collisions . Nucl. Instrum. Method , 194 : 93
  • Wilson , W. D. , Haggmark , L. G. and Biersack , J. P. 1977 . Calculations of nuclear stopping, ranges, and straggling in the low-energy region . Phys. Rev. , B15 : 2458
  • Robinson , M. T. 1981 . “ Theoretical aspects of monocrystal sputtering ” . In Sputtering by Particle Bombardment I , Edited by: Behrisch , R. Berlin : Springer-Verlag . Chap. 3
  • Roosendaal , H. E. 1981 . “ Sputtering yields of single crystalline targets ” . In Sputtering by Particle Bombardment I , Edited by: Behrisch , R. Berlin : Springer-Verlag . Chap. 5
  • Anderson , G. S. 1966 . Atom ejection studies for sputtering of semiconductors . J. Appl. Phys. , 37 : 3455
  • Parren , J. and Scaife , W. J. 1968 . Sputtering of GaAs single crystals by 8 to 16 keV argon ions . Talanta , 15 : 217
  • Anderson , G. S. and Wehner , G. K. 1964 . Temperature dependence of ejection patterns in Ge, Si, InSb, and InAs sputtering. . Surf. Sci. , 2 : 367
  • Comas , J. and Cooper , C. B. 1966 . Sputtering yields of several semiconducting compounds under argon ion bombardment . J. Appl. Phys. , 37 : 2820
  • Pearmain , K. and Unvala , B. A. 1975 . Sputtering of silicon and gallium arsenide with medium energy intense ion beams of argon and xenon. . Vacuum , 25 : 3
  • Brozdowska-Warczak , B. , Gabla , L. , Pedrys , R. , Szymonski , M. and Warczak , A. 1978 . Bombardment-induced photon emission from GaAs as a function of target temperature . Surf. Sci. , 75 : 61
  • Cooper , C. B. , Hart , R. G. and Riley , J. C. 1973 . Low-energy sputtering yield of the (111) and (111) faces of GaAs . J. Appl. Phys. , 44 : 5183
  • Singer , I. L. , Murday , J. S. and Cooper , L. R. 1978 . Abstract: composition changes in GaAs due to low-energy ion bombardment . J. Vac. Sci. Technol , 15 : 725
  • Singer , I. L. , Murday , J. S. and Cooper , L. R. 1981 . Surface composition changes in GaAs due to low-energy ion bombardment . Surf. Sci. , 108 : 7
  • Singer , I. L. , Murday , J. S. and Comas , J. 1981 . Preferential sputtering from disordered GaAs . J. Vac. Sci. Technol , 18 : 161
  • Greene , J. E. and Whelan , J. M. 1973 . Glow-discharge optical spectroscopy for the analysis of thin films . J. Appl. Phys. , 44 : 2509
  • Kawabe , M. , Kanzaki , N. , Masuda , K. and Namba , S. 1978 . Effects of ion etching on the properties of GaAs . Appl. Opt. , 17 : 2556
  • Barnctt , S. A. and Greene , J. E. 1983 . Mechanisms of epitaxial GaAs crystal growth by sputter deposition: role of ion/surface interactions. . Surf. Sci. , 128 : 401
  • Eccles , A. J. , van Berg , J. A. , Brown , A. and Vickerman , J. C. 1986 . Evidence of a charge induced contribution to the sputtering yield of insulating and semiconductor materials . Appl. Phys. Lett. , 49 : 188
  • Kelly , R. 1984 . “ Implantation, recoil implantation and sputtering ” . In Ion Bombardment Modification of Surfaces: Fundamentals and Applications , Edited by: Auciello , O. and Kelly , R. 27 Amsterdam : Elsevier .
  • Bhattacharya , S. R. , Chose , D. , Basu , D. and Karmohapatro , S. B. 1987 . Surface topography of Ar+ bombarded GaAs (100) at various temperatures . J. Vac. Sci. Technol. , A5 : 179
  • Rai , A. K. , Bhattacharya , R. S. , Pronko , P. P. and Ling , S. C. 1983 . Argon implantation in GaAs: damage and lattice site location analyses . J. Appl. Phys. , 54 : 2307
  • Pearton , S. J. , Chakrabarti , U. K. , Perley , A. P. and Jones , K. S. 1990 . Ion milling damage in InP and GaAs . J. Appl. Phys. , 68 : 2760
  • Bhattacharya , S. R. , Chose , D. and Basu , D. 1987 . Energy dependence of the sputtering yield of gallium arsenide by argon ion bombardment . Indian J. Pure Appl. Phys. , 25 : 328
  • Bhattacharya , S. R. , Ghose , D. and Basu , D. 1990 . Mass and energy dependence of the sputtering yield of gallium arsenide. . Nucl. Instrum. Method , B47 : 253
  • Darbyshire , D. A. and Pitt , C. W. 1990 . Ion-assisted processing of GaAs for optical devices. . Vacuum , 40 : 351
  • Bert , N. A. , Pogrebitskii , Yu. K. , Soshnikov , I. P. and Yur'ev , Yu. N. 1992 . Sputtering of GaAs (001) by Ar+ ions with energies of 1 to 9 keV . Sov. Phys. Tech. Phys. , 37 : 449
  • Laznovsky , W. 1975 . Advances in low-energy ion beam technology . Res. /Dev. , 26 : 47
  • Glöersen , G. 1975 . Ion-beam etching . J. Vac. Sci. Technol. , 12 : 28
  • Cantagrel , M. 1975 . Comparison of the properties of different materials used as masks for ion-beam etching . J. Vac. Sci. Technol. , 12 : 1340
  • Woodward , D. W. , Morkoc , H. and Chandra , A. 1976 . unpublished results reported in a table in reference [Mu85].
  • Somekh , S. 1976 . Introduction to ion and plasma etching . J. Vac. Sci. Technol. , 13 : 1003
  • Somekh , S. and Casey , H. C. Jr. 1977 . Dry processing of high resolution and high aspect ratio structures in GaAs-AlxGa1−x As for integrated optics . Appl. Opt. , 16 : 126
  • Chandra , A. 1979 . “ The Growth, Characterization and Application of High Purity Ga1−xAlxAs ” . In Ph. D. thesis , Cornell University .
  • Lee , R. E. 1979 . Microfabrication by ion-beam etching . J. Vac. Sci. Technol. , 16 : 164
  • Chen , W. , Walpita , L. M. , Sun , C. C. and Chang , W. S. C. 1986 . Ion beam etching of InGaAs, InP, GaAs, Si and Ge . J. Vac. Sci. Technol. , B4 : 701
  • Skidmore , J. A. , Coldren , L. A. , Hu , E. L. , Merz , J. L. and Asakawa , K. 1988 . Radical beam/ion beam etching of GaAs . J. Vac. Sci. Technol. , B6 : 1885
  • Davis , R. J. and Wolf , E. D. 1990 . A simple model of the chemically assisted ion beam etching yield of GaAs with Cl2 at medium current densities . J. Vac. Sci. Technol. , B8 : 1798
  • Downey , S. W. , Emerson , A. B. and Kopf , R. F. 1992 . Sputtering processes in AℓxGa1−xAs and the effects on post-ionization detection . Nucl. Instrum. Method. , B62 : 456
  • Foad , M. A. , Thorns , S. and Wilkinson , C. D. W. 1993 . New technique for dry etch damage assessment of semiconductors . J. Vac. Sci. Technol. , B11 : 20
  • Blakemore , J. S. 1982 . Semiconducting and other major properties of gallium arsenide . J. Appl. Phys. , 53 : R123
  • Cries , W. H. 1993 . On the surface analytical implications of commonly used simplifying assumptions about (wafer) surfaces . S. Afr. J. Phys. , 16 : 95
  • Gries , W. H. 1989 . Radiation-induced sample modification in surface analysis: InP as an extreme example . Surf. Interface Anal. , 14 : 611
  • Gries , W. H. 1991 . “ Recrystallization-Affected Topography on Semiconductors at SIMS Conditions ” . In Proc. SIMS VIII , Edited by: Benninghoven , A. , Janssen , K. T. F. , Tümpner , J. and Werner , H. W. 323 Chichester : Wiley .
  • Hoinkis , O. , Miethe , K. , Betz , W. and Gries , W. H. 1991 . Application of infrared luminescence microscopy for ion beam diagnostics and for measurement of ion dose densities from 109 to 1016 cm−3 . Fresenius J. Anal. Chem. , 341 : 101
  • Gries , W. H. 1991 . “ On the origin of topography developing on keV ion-irradiated InP and GaAs Poster EMJ-ThP 19 ” . Seattle : 38th Natl. Symp. American Vacuum Society . unpublished.
  • Gries , W. H. 1991 . private communication
  • Gries , W. H. 1994 . private communication
  • Szyszko , W. and Sielanko , J. 1989 . Monte Carlo calculation of depth distribution of implanted ions and sputtering yield . Phys. Stat. Sol.(a) , 112 : 315
  • Chini , T. K. , Bhattacharya , S. R. , Ghose , D. and Basu , D. 1992 . The angular dependence of sputtering yields of Ge and Ag . Nucl. Instrum. Method. , B72 : 355
  • Xu , X. , Delia Ratta , A. D. , Sosonkina , J. and Melgailis , J. 1992 . Focused ion beam induced deposition and ion milling as a function of angle of ion incidence . J. Vac. Sci. Technol. , B10 : 2675
  • Eckstein , W. and László , J. 1991 . Sputtering of tungsten and molybdenum . J. Nucl. Mater. , 183 : 19
  • László , J. and Eckstein , W. 1991 . Sputtering and reflection from lithium, gallium and indium . J. Nucl. Mater. , 184 : 22
  • Eckstein , W. , Roth , J. , Gauthier , E. and László , J. 1991 . Physical and chemical sputtering of multicomponent solids. . Fusion Technol. , 19 : 2076
  • Eckstein , W. , Bohdansky , J. and Roth , J. 1991 . Physical sputtering. . Nucl. Fusion , Suppl. 1 : 51
  • Wilson , I. H. , Chereckdjian , S. and Webb , R. P. 1985 . On the variation of sputtering yield with angle of ion incidence . Nucl. Instr. Method , B7/8 : 735
  • Bay , H. L. and Bohdansky , J. 1979 . Sputtering yields for light ions as a function of angle of incidence . Appl. Phys. , 19 : 421
  • Gushko , V. P. 1971 . Thermodynamical Constants , Moscow : Izd. Akad. Nauk SSSR . [in Russian]
  • Bohdansky , J. 1984 . A universal relation for the sputtering yield of monoatomic solids at normal ion incidence . Nucl. Instrum. Method , B2 : 587
  • Privai , H. G. 1978 . A model of the ion sputtering process . Surf. Sci. , 76 : 443
  • Matsunami , N. , Yamamura , Y. , Itikawa , Y. , Itoh , N. , Kazumata , Y. , Miyagawa , S. , Morita , K. and Shimizu , R. 1980 . A semiempirical formula for the energy dependence of the sputtering yield . Rad. Eff. Lett. , 57 : 15
  • Yamamura , Y. 1981 . Contribution of anisotropic velocity distribution of recoil atoms to sputtering yields and angular distributions of sputtered atoms . Rad. Eff. , 55 : 49
  • Yamamura , Y. , Matsunami , N. and Itoh , N. 1982 . A new empirical formula for the sputtering yield . Rad. Eff. Lett. , 68 : 83
  • Schwarz , S. A. and Helms , C. R. 1979 . Model of ion knock-on mixing with application to Si-SiO2 interface studies . J. Vac. Sci. Technol. , 16 : 781
  • Schwarz , S. A. and Helms , C. R. 1979 . A statistical model of sputtering . J. Appl. Phys. , 50 : 5492
  • Schwarz , S. A. and Helms , C. R. 1981 . An elementary model of neutral and ion sputtering yields. . Surf. Sci. , 102 : 578
  • Schwarz , S. A. 1988 . Geometrical and surface effects in the sputtering process . J. Vac. Sci. Technol. , A6 : 2069
  • Smith , D. L. 1978 . Physical sputtering model for fusion reactor first-wall materials . J. Nucl. Mater. , 75 : 20
  • Littmark , U. and Fedder , S. 1982 . Primary recoil contribution to low energy light ion sputtering . Nucl. Instrum. Method , 194 : 607
  • Cries , W. H. 1976 . “ Quantitative Ion Implantation ” . In Ph. D. thesis , Stellenbosch, , South Africa : Univ. of Stellenbosch .
  • Gries , W. H. 1979 . Quantitative ion implantation: theoretical aspects . Int. J. Mass Spectromet. Ion Phys. , 30 : 97
  • Oen , O. S. and Robinson , M. T. 1976 . Computer studies of the reflection of light ions from solids . Nucl. Instrum. Method , 132 : 647
  • Destofanis , G. L. 1988 . Electrical doping of HgCdTe by ion implantation and heat treatment . J. Cryst. Growth , 86 : 700
  • Mazzoldi , P. and Miotello , A. 1989 . Transport processes in solids during ion implantation . Mat. Sci. Eng. , A115 : 1
  • Szymoński , M. 1982 . Sputtering mechanisms of compound solids . Nucl. Instrum. Method , 194 : 523
  • Szymoński , M. 1984 . Elastic-collision spikes in sputtering of metals at normal and oblique incidence. . Nucl. Instrum. Method. , B2 : 583
  • Andersen , H. H. and Bay , H. L. 1973 . Sputtering-yield studies on silicon and silver targets . Rad. Eff. , 19 : 139
  • Thompson , D. A. 1981 . Application of an extended linear cascade model to the sputtering of Ag, Au, and Pt by heavy atomic and molecular ions . J. Appl. Phys. , 52 : 982
  • Kelly , R. 1978 . An attempt to understand preferential sputtering . Nucl. Instrum. Method , 149 : 553
  • Van Swygenhoven , H. and Caro , A. 1993 . Nanoscale phase transitions induced by heat spikes in collision cascades . Phys. Rev. Lett. , 70 : 2098
  • Lindhard , J. 1965 . Influence of crystal lattice on motion of energetic charged particles . Mat. Fys, Medd. Dan. Vid. Selsk. , 34 ( 14 ) : 1
  • van Wyk , G. N. and Lategan , A. H. 1982 . A formula for the calculation of the sputtering yield of polycrystal-line materials . Rad. Eff. Lett. , 68 : 107
  • Onderdelinden , D. 1965 . Single crystal sputtering including the channeling phenomena . Can. J. Phys. , 46 : 739
  • Onderdelinden , D. 1966 . The influence of channeling on Cu single-crystal sputtering . Appl. Phys. Lett. , 8 : 189
  • Wada , O. 1984 . Ion-beam etching of InP and its application to the fabrication of high radiance InGaAsP/InP light emitting diodes . J. Electrochem. Soc. , 131 : 2373
  • Wada , O. 1984 . Ar ion-beam etching characteristics and damage production in InP . J. Phys. D: Appl. Phys. , 17 : 2429
  • DeMeo , N. L. , Donnelly , J. P. , O'Donnell , F. J. , Geis , M. W. and O'Connor , K. J. 1985 . Low power ion-beam-assisted etching of indium phosphide. . Nucl. Instrum. Method , B7/8 : 814
  • Linders , J. , Niedrig , H. , Sebald , T. and Sternberg , M. 1986 . The sputtering of InP with 3 keV Ar- and O2-ions under various angles . Nucl. Instrum. Method , B13 : 374
  • Bouadma , N. , Devoldere , P. , Jusserand , B. and Ossart , P. 1986 . Ion beam etching and surface characterization of indium phosphide . Appl. Phys. Lett. , 48 : 1285
  • Carin , R. , De ville , J. P. and Werckmann , J. 1990 . An XPS Study of GaN Thin Films on GaAs . Surf. Interface Anal. , 16 : 65
  • Wolsky , S. P. , Zdanuk , E. J. and Shooter , D. 1964 . The sputtering of compounds . Surf. Sci. , 1 : 110
  • Bohdansky , J. , Bay , H. L. and Ottenberger , W. 1978 . Sputtering yields of graphite and carbides and their potential use as first wall materials . J. Nucl. Mater. , 76/77 : 163
  • Mohn , M. , Watanabe , K. , Yamashina , T. , Doi , H. and Hayakawa , K. 1978 . Measurement of erosion yields for a SiC surface on H+, D+ and Ar+ bombardment . J. Nucl. Mater. , 75 : 309
  • Morris , G. C. and Wood , B. J. 1991 . Quantitative surface analysis of II—VI compounds . Mater. Forum , 15 : 44
  • Lu , Y.-C. , Stahle , C. M. , Feigelson , R. S. and Morimoto , J. 1987 . Etching on polar (111) surfaces of CdTe crystals studied with Auger electron spectros-copy . J. Appl. Phys. , 62 : 4453
  • Stahle , C. M. and Helms , C. R. 1992 . Ion sputter effects on HgTe, CdTe, and HgCdTe . J. Vac. Sci. Technol. , A10 : 3239
  • Meuris , M. , Vandervorst , W. , Borghs , G. and Maes , H. E. 1988 . “ Aspects of quantitative analysis of oxygen content in AlxGa1−xAs multilayers ” . In Secondary Ion Mass Spectrometry, SIMS VI. , Edited by: Benninghoven , A. , Huber , A. M. and Werner , H. W. 277 Chichester : Wiley .
  • Nitz , H. M. , Ganschow , O. , Kaiser , U. , Wied-mann , L. and Benninghoven , A. 1989 . Quasisimul-taneous SIMS, AES, XPS and TDMS study of preferential sputtering diffusion and mercury evaporation in CdxHg1−x., Te . Surf. Sci. , 104 : 365
  • Eckstein , W. , Gamía-Rosales , C. , Roth , J. and László , J. 1993 . Threshold energy for sputtering and its dependence on angle of incidence. . Nucl. Instrum. Method , B83 : 95
  • Sigmund , P. 1993 . Fundamental processes in sputtering of atoms and molecules (SPUT92). Symposium on the occasion of the 25th anniversary of the Royal Danish Academy of Sciences and Letter . Mat. Fys. Medd. Dan. Vid. Selsk. , : 43
  • Sigmund , P. 1993 . Introduction to sputtering . Mat. Fys. Medd. Dan. Vid. Selsk. , 43 : 7
  • Andersen , H. H. 1993 . Nonlinear effects in collisional sputtering under cluster impact . Mat. Fys. Medd. Dan. Vid. Selsk. , 43 : 127

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