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Cluster SIMS of organic materials: Theoretical insights

Bibliographic reference Delcorte, Arnaud ; Restrepo-Gutiérrez, Oscar Antonio ; Czerwinski, Bartlomiej Piotr. Cluster SIMS of organic materials: Theoretical insights. In: Ch. Mahoney, Cluster Secondary Ion Mass Spectrometry: Principles and Applications, John Wiley & Sons, Inc.  : Hoboken, NJ, USA 2013, p. 13-55
Permanent URL http://hdl.handle.net/2078.1/129115
  1. Gardella, Proceedings of the Seventeenth International Conference on Secondary Ion Mass Spectrometry (SIMS XVII) (2011)
  2. Samela Juha, Nordlund Kai, Atomistic Simulation of the Transition from Atomistic to Macroscopic Cratering, 10.1103/physrevlett.101.027601
  3. Garrison Barbara J., Postawa Zbigniew, Computational view of surface based organic mass spectrometry, 10.1002/mas.20165
  4. Andersen H. H., Brunelle A., Della-Negra S., Depauw J., Jacquet D., Le Beyec Y., Chaumont J., Bernas H., Giant Metal Sputtering Yields Induced by 20–5000 keV/atom Gold Clusters, 10.1103/physrevlett.80.5433
  5. Morozov S.N., Rasulev U.Kh., Non-linear effects in Ta sputtering by Aum− ions, 10.1016/s0168-583x(02)02216-4
  6. Appelhans Anthony D., Delmore James E., Comparison of polyatomic and atomic primary beams for secondary ion mass spectrometry of organics, 10.1021/ac00185a009
  7. Blain M. G., Della-Negra S., Joret H., Le Beyec Y., Schweikert E. A., Secondary-ion yields from surfaces bombarded with keV molecular and cluster ions, 10.1103/physrevlett.63.1625
  8. Mahoney J. F., Perel J., Ruatta S. A., Martino P. A., Husain S., Cook Kelsey, Lee T. D., Massive cluster impact mass spectrometry: A new desorption method for the analysis of large biomolecules, 10.1002/rcm.1290051004
  9. Kötter F, Benninghoven A, Secondary ion emission from polymer surfaces under Ar+, Xe+ and SF5+ ion bombardment, 10.1016/s0169-4332(97)00515-1
  10. Gillen Greg, Roberson Sonya, Preliminary evaluation of an SF5+ polyatomic primary ion beam for analysis of organic thin films by secondary ion mass spectrometry, 10.1002/(sici)1097-0231(19981015)12:19<1303::aid-rcm330>3.0.co;2-7
  11. Weibel Daniel, Wong Steve, Lockyer Nicholas, Blenkinsopp Paul, Hill Rowland, Vickerman John C., A C60Primary Ion Beam System for Time of Flight Secondary Ion Mass Spectrometry:  Its Development and Secondary Ion Yield Characteristics, 10.1021/ac026338o
  12. Kollmer F, Cluster primary ion bombardment of organic materials, 10.1016/j.apsusc.2004.03.101
  13. Sigmund Peter, Theory of Sputtering. I. Sputtering Yield of Amorphous and Polycrystalline Targets, 10.1103/physrev.184.383
  14. Sigmund, Sputtering by Particle Bombardment I (1981)
  15. Sigmund P., Claussen C., Sputtering from elastic‐collision spikes in heavy‐ion‐bombarded metals, 10.1063/1.328790
  16. Jakas Mario M., Harrison Don E., Many-body effects in atomic-collision cascades, 10.1103/physrevlett.55.1782
  17. Delcorte Arnaud, Garrison Barbara J., Desorption of large molecules with light-element clusters: Effects of cluster size and substrate nature, 10.1016/j.nimb.2010.11.023
  18. Delcorte Arnaud, Garrison Barbara J., keV fullerene interaction with hydrocarbon targets: Projectile penetration, damage creation and removal, 10.1016/j.nimb.2006.11.070
  19. Delcorte A., Garrison B. J., High Yield Events of Molecular Emission Induced by Kiloelectronvolt Particle Bombardment, 10.1021/jp001374h
  20. Ziegler, The Stopping and Ranges of Ions in Solids (1985)
  21. Stopping Range of Ions in Matter http://www.srim.org/
  22. Robinson, Sputtering by Particle Bombardment I (1981)
  23. Harrison Don E., Application of molecular dynamics simulations to the study of ion-bombarded metal surfaces, 10.1080/10408438808244782
  24. Winograd, Ion Spectroscopies for Surface Analysis (1991)
  25. Stuart Steven J., Tutein Alan B., Harrison Judith A., A reactive potential for hydrocarbons with intermolecular interactions, 10.1063/1.481208
  26. Brenner Donald W., Empirical potential for hydrocarbons for use in simulating the chemical vapor deposition of diamond films, 10.1103/physrevb.42.9458
  27. Brenner D.W., Harrison J.A., White C.T., Colton R.J., Molecular dynamics simulations of the nanometer-scale mechanical properties of compressed Buckminsterfullerene, 10.1016/0040-6090(91)90425-w
  28. Brenner Donald W, Shenderova Olga A, Harrison Judith A, Stuart Steven J, Ni Boris, Sinnott Susan B, A second-generation reactive empirical bond order (REBO) potential energy expression for hydrocarbons, 10.1088/0953-8984/14/4/312
  29. Smiley Edward J., Postawa Zbigniew, Wojciechowski Igor A., Winograd Nicholas, Garrison Barbara J., Coarse-grained molecular dynamics studies of cluster-bombarded benzene crystals, 10.1016/j.apsusc.2006.02.095
  30. Russo Michael F., Garrison Barbara J., Mesoscale Energy Deposition Footprint Model for Kiloelectronvolt Cluster Bombardment of Solids, 10.1021/ac061180j
  31. Postawa Zbigniew, Czerwinski Bartlomiej, Szewczyk Marek, Smiley Edward J., Winograd Nicholas, Garrison Barbara J., Enhancement of Sputtering Yields Due to C60versus Ga Bombardment of Ag{111} As Explored by Molecular Dynamics Simulations, 10.1021/ac034387a
  32. Delcorte, J. Phys. Chem. C (2013)
  33. Szakal Christopher, Kozole Joseph, Russo Michael F., Garrison Barbara J., Winograd Nicholas, Surface Sensitivity in Cluster-Ion-Induced Sputtering, 10.1103/physrevlett.96.216104
  34. Delcorte Arnaud, Garrison Barbara J., Sputtering Polymers with Buckminsterfullerene Projectiles:  A Coarse-Grain Molecular Dynamics Study†, 10.1021/jp074536j
  35. Urbassek Herbert M., Waldeer K. Thomas, Spikes in condensed rare gases induced by keV-atom bombardment, 10.1103/physrevlett.67.105
  36. Wojciechowski I. A., Garrison B. J., Sputtering of Water Ice Induced by C60Bombardment:  Onset of Plume Formation†, 10.1021/jp054512h
  37. Shard A. G., Brewer P. J., Green F. M., Gilmore I. S., Measurement of sputtering yields and damage in C60 SIMS depth profiling of model organic materials, 10.1002/sia.2525
  38. He Chun, Rosencrance S.W., Postawa Z., Xu C., Chatterjee R., Riederer D.E., Garrison B.J., Winograd N., Angular, energy, and population distributions of neutral atoms desorbed by keV ion beam bombardment of Ni{001}, 10.1016/0168-583x(94)00843-4
  39. Czerwinski Bartlomiej, Rzeznik Lukasz, Paruch Robert, Garrison Barbara J., Postawa Zbigniew, Molecular dynamics computer simulations of 5keV C60 bombardment of benzene crystal, 10.1016/j.vacuum.2009.01.034
  40. Garrison Barbara J., Postawa Zbigniew, Ryan Kathleen E., Vickerman John C., Webb Roger P., Winograd Nicholas, Internal Energy of Molecules Ejected Due to Energetic C60Bombardment, 10.1021/ac802399m
  41. Hamraoui Karim, Delcorte Arnaud, Effects of Molecular Orientation and Size in Sputtering of Model Organic Crystals†, 10.1021/jp906004v
  42. Paruch R., Rzeznik L., Czerwinski B., Garrison B. J., Winograd N., Postawa Z., Molecular Dynamics Simulations of Sputtering of Langmuir−Blodgett Multilayers by Kiloelectronvolt C60Projectiles, 10.1021/jp809769q
  43. Delcorte A., Bertrand P., Garrison B. J., Hamraoui K., Mouhib T., Restrepo O. A., Santos C. N., Yunus S., Probing soft materials with energetic ions and molecules: from microscopic models to the real world, 10.1002/sia.3270
  44. Magonov Sergei N., Yerina Natalya A., High-Temperature Atomic Force Microscopy of Normal Alkane C60H122Films on Graphite, 10.1021/la0206615
  45. Bertrand P., Bu H., Rabalais J. W., Orientation of single crystalline paraffin thin films from time-of-flight direct recoil spectrometry, 10.1021/j100153a057
  46. Stapel D., Brox O., Benninghoven A., Secondary ion emission from arachidic acid LB-layers under Ar+, Xe+, Ga+ and SF5+ primary ion bombardment, 10.1016/s0169-4332(98)00584-4
  47. Diehnelt Chris W, Van Stipdonk Michael J, Schweikert Emile A, Effectiveness of atomic and polyatomic primary ions for organic secondary ion mass spectrometry, 10.1016/s1387-3806(00)00400-0
  48. Weibel D.E., Lockyer N., Vickerman J.C., C60 cluster ion bombardment of organic surfaces, 10.1016/j.apsusc.2004.03.098
  49. Postawa Zbigniew, Czerwinski Bartlomiej, Winograd Nicholas, Garrison Barbara J., Microscopic Insights into the Sputtering of Thin Organic Films on Ag{111} Induced by C60and Ga Bombardment, 10.1021/jp050821w
  50. Czerwiński B., Samson R., Garrison B.J., Winograd N., Postawa Z., Desorption of organic overlayers by Ga and C60 bombardment, 10.1016/j.vacuum.2006.03.012
  51. Czerwiński B., Delcorte A., Garrison B.J., Samson R., Winograd N., Postawa Z., Sputtering of thin benzene and polystyrene overlayers by keV Ga and C60 bombardment, 10.1016/j.apsusc.2006.02.202
  52. Garrison Barbara J., Delcorte Arnaud, Krantzman Kristin D., Molecule Liftoff from Surfaces, 10.1021/ar970135i
  53. Delcorte A., Médard N., Bertrand P., Organic Secondary Ion Mass Spectrometry:  Sensitivity Enhancement by Gold Deposition, 10.1021/ac020125h
  54. Delcorte A., Yunus S., Wehbe N., Nieuwjaer N., Poleunis C., Felten A., Houssiau L., Pireaux J.-J., Bertrand P., Metal-Assisted Secondary Ion Mass Spectrometry Using Atomic (Ga+, In+) and Fullerene Projectiles, 10.1021/ac062406l
  55. Wehbe Nimer, Heile Andreas, Arlinghaus Heinrich F., Bertrand Patrick, Delcorte Arnaud, Effects of Metal Nanoparticles on the Secondary Ion Yields of a Model Alkane Molecule upon Atomic and Polyatomic Projectiles in Secondary Ion Mass Spectrometry, 10.1021/ac800568y
  56. Restrepo Oscar A., Delcorte Arnaud, Molecular dynamics study of metal-organic samples bombarded by kiloelectronvolt projectiles, 10.1002/sia.3411
  57. Restrepo O., Prabhakaran A., Hamraoui K., Wehbe N., Yunus S., Bertrand P., Delcorte A., Mechanisms of metal-assisted secondary ion mass spectrometry: a mixed theoretical and experimental study, 10.1002/sia.3203
  58. Delcorte, ToF-SIMS: Surface Analysis by Mass Spectrometry (2001)
  59. Delcorte Arnaud, Matrix-enhanced secondary ion mass spectrometry: The Alchemist's solution?, 10.1016/j.apsusc.2006.02.076
  60. Conlan Xavier A., Lockyer Nicholas P., Vickerman John C., Is proton cationization promoted by polyatomic primary ion bombardment during time-of-flight secondary ion mass spectrometry analysis of frozen aqueous solutions?, 10.1002/rcm.2446
  61. Conlan X.A., Biddulph G.X., Lockyer N.P., Vickerman J.C., Using polyatomic primary ions to probe an amino acid and a nucleic base in water ice, 10.1016/j.apsusc.2006.02.079
  62. Mahoney, Mass Spectrom. Rev., 29, 247 (2010)
  63. Möllers R., Tuccitto N., Torrisi V., Niehuis E., Licciardello A., Chemical effects in C60 irradiation of polymers, 10.1016/j.apsusc.2006.02.083
  64. Nieuwjaer N., Poleunis C., Delcorte A., Bertrand P., Depth profiling of polymer samples using Ga+and C60+ion beams, 10.1002/sia.2931
  65. Ninomiya Satoshi, Ichiki Kazuya, Yamada Hideaki, Nakata Yoshihiko, Seki Toshio, Aoki Takaaki, Matsuo Jiro, Precise and fast secondary ion mass spectrometry depth profiling of polymer materials with large Ar cluster ion beams, 10.1002/rcm.4046
  66. Delcorte A., Garrison B. J., Hamraoui K., Dynamics of Molecular Impacts on Soft Materials: From Fullerenes to Organic Nanodrops, 10.1021/ac900746x
  67. Delcorte A., Poleunis C., Bertrand P., Energy distributions of atomic and molecular ions sputtered by C60+ projectiles, 10.1016/j.apsusc.2006.02.260
  68. Webb Roger P., Garrison Barbara J., Vickerman John C., The effect of the H:C ratio on the sputtering of molecular solids by fullerenes, 10.1002/sia.3421
  69. Krantzman K.D., Kingsbury D.B., Garrison Barbara J., Cluster induced chemistry at solid surfaces: Molecular dynamics simulations of keV C60 bombardment of Si, 10.1016/j.nimb.2006.11.079
  70. Krantzman Kristin D., Kingsbury David B., Garrison Barbara J., Bombardment induced surface chemistry on Si under keV C60 impact, 10.1016/j.apsusc.2006.02.276
  71. Wojciechowski Igor A., Garrison Barbara J., Collision-Induced Dissociation of Water into Ions, 10.1021/jp046192s
  72. Ryan Kathleen E., Wojciechowski Igor A., Garrison Barbara J., Reaction Dynamics Following keV Cluster Bombardment, 10.1021/jp071380e
  73. Russo Michael F., Postawa Zbigniew, Garrison Barbara J., A Computational Investigation of C60Depth Profiling of Ag: Molecular Dynamics of Multiple Impact Events, 10.1021/jp808706y
  74. Paruch Robert, Rzeznik Lukasz, Russo Michael F, Garrison Barbara J., Postawa Zbigniew, Molecular Dynamics Study of the Effect of Surface Topography on Sputtering Induced by 20 keV Au3and C60Clusters†, 10.1021/jp906139d
  75. Krantzman Kristin D., Wucher Andreas, Fluence Effects in C60Cluster Bombardment of Silicon†, 10.1021/jp906050f
  76. Aoki Takaaki, Matsuo Jiro, Molecular dynamics simulations of sequential cluster ion impacts, 10.1016/j.nimb.2004.10.021
  77. Shannon Cornett D., Lee Terry D., Mahoney John F., Todd P. J., Matrix-free desorption of biomolecules using massive cluster impact, 10.1002/rcm.1290081218
  78. Hiraoka Kenzo, Mori Kunihiko, Asakawa Daiki, Fundamental aspects of electrospray droplet impact/SIMS, 10.1002/jms.1048
  79. Asakawa Daiki, Fujimaki Susumu, Hashimoto Yutaka, Mori Kunihiko, Hiraoka Kenzo, Study on ion formation in electrospray droplet impact secondary ion mass spectrometry, 10.1002/rcm.3004
  80. Aksyonov Sergei A., Williams Peter, Impact desolvation of electrosprayed microdroplets - a new ionization method for mass spectrometry of large biomolecules, 10.1002/rcm.470
  81. Takáts Zoltán, Wiseman Justin M., Cooks R. Graham, Ambient mass spectrometry using desorption electrospray ionization (DESI): instrumentation, mechanisms and applications in forensics, chemistry, and biology, 10.1002/jms.922
  82. Kauppila Tiina J., Wiseman Justin M., Ketola Raimo A., Kotiaho Tapio, Cooks R. Graham, Kostiainen Risto, Desorption electrospray ionization mass spectrometry for the analysis of pharmaceuticals and metabolites, 10.1002/rcm.2304
  83. Smiley Edward J., Winograd Nicholas, Garrison Barbara J., Effect of Cluster Size in Kiloelectronvolt Cluster Bombardment of Solid Benzene, 10.1021/ac061531u
  84. Garrison Barbara J., Ryan Kathleen E., Russo, Michael F., Smiley Edward J., Postawa Zbigniew, Quadratic Friction Model for Cluster Bombardment of Molecular Solids, 10.1021/jp072290c
  85. Ryan Kathleen E., Garrison Barbara J., Cluster Size Dependence and Yield Linearity in Cluster Bombardment Simulations of Benzene, 10.1021/ac800995w
  86. Russo Michael F., Szakal Christopher, Kozole Joseph, Winograd Nicholas, Garrison Barbara J., Sputtering Yields for C60and Au3Bombardment of Water Ice as a Function of Incident Kinetic Energy, 10.1021/ac070105l
  87. Delcorte A., Garrison B. J., Hamraoui K., Sputtering soft materials with molecular projectiles: a microscopic view, 10.1002/sia.3405
  88. Biddulph Gregory X., Piwowar Alan M., Fletcher John S., Lockyer Nicholas P., Vickerman John C., Properties of C84and C24H12Molecular Ion Sources for Routine TOF-SIMS Analysis, 10.1021/ac071442x
  89. Chan Chang-Ching, Bolgar Mark S., Miller Scott A., Attygalle Athula B., Desorption ionization by charge exchange (DICE) for sample analysis under ambient conditions by mass spectrometry, 10.1016/j.jasms.2010.04.020
  90. Hiraoka K., Asakawa D., Fujimaki S., Takamizawa A., Mori K., Electrosprayed droplet impact/secondary ion mass spectrometry, 10.1140/epjd/e2005-00282-6
  91. Moritani Kousuke, Houzumi Shingo, Takeshima Keigo, Toyoda Noriaki, Mochiji Kozo, Preferential Sputtering of DNA Molecules on a Graphite Surface by Ar Cluster Ion Beam, 10.1021/jp801121r
  92. Tomsic A., Schröder H., Kompa K.-L., Gebhardt C. R., Impact dynamics of molecular clusters on surfaces: Fragmentation patterns and anisotropic effects, 10.1063/1.1603213
  93. Tomsic A., Gebhardt C.R., Molecular dynamics simulations of the micro-solvation of ions and molecules during cluster–surface collisions, 10.1016/j.cplett.2004.01.023
  94. Tomsic A., Gebhardt C. R., A comparative study of cluster-surface collisions: Molecular-dynamics simulations of (H2O)1000 and (SO2)1000, 10.1063/1.1997109
  95. Delcorte, Nucl. Instr. Meth. B (2012)
  96. Thirumuruganandham Saravana Prakash, Urbassek Herbert M., Protein isolation through impact desolvation of electrosprayed microdroplets (IDEM): Molecular dynamics simulation, 10.1016/j.ijms.2009.10.002
  97. Thirumuruganandham Saravana Prakash, Urbassek Herbert M., Evaporation of solvent molecules by ultrafast heating: effect on conformation of solvated protein : Evaporation of solvent molecules by ultrafast heating, 10.1002/rcm.4396
  98. Sun Si Neng, Urbassek Herbert M., Impact Desolvation of Polymers Embedded in Nanodroplets, 10.1021/jp207512q
  99. Rabbani Sadia, Barber Andrew M., Fletcher John S., Lockyer Nicholas P., Vickerman John C., TOF-SIMS with Argon Gas Cluster Ion Beams: A Comparison with C60+, 10.1021/ac200288v
  100. Ninomiya Satoshi, Nakata Yoshihiko, Ichiki Kazuya, Seki Toshio, Aoki Takaaki, Matsuo Jiro, Measurements of secondary ions emitted from organic compounds bombarded with large gas cluster ions, 10.1016/j.nimb.2006.12.047
  101. Aoki T., Matsuo J., Insepov Z., Yamada I., Molecular dynamics simulation of damage formation by cluster ion impact, 10.1016/s0168-583x(96)00698-2
  102. Aoki Takaaki, Matsuo Jiro, Takaoka Gikan, Molecular dynamics study of damage formation characteristics by large cluster ion impacts, 10.1016/s0168-583x(02)01869-4
  103. Aoki Takaaki, Matsuo Jiro, Takaoka Gikan, Yamada Isao, Cluster species and cluster size dependence of damage formation by cluster ion impact, 10.1016/s0168-583x(03)00879-6
  104. Aoki Takaaki, Matsuo Jiro, Surface structure dependence of impact processes of gas cluster ions, 10.1016/j.nimb.2003.11.077
  105. Aoki Takaaki, Matsuo Jiro, Molecular dynamics study of surface modification with a glancing angle gas cluster ion beam, 10.1016/j.nimb.2006.11.071
  106. Aoki Takaaki, Matsuo Jiro, Molecular dynamics study of glancing angle gas cluster irradiation on irregular-structured surfaces, 10.1016/j.nimb.2007.04.005
  107. Rzeznik Lukasz, Czerwinski Bartlomiej, Garrison Barbara J., Winograd Nicholas, Postawa Zbigniew, Microscopic Insight into the Sputtering of Thin Polystyrene Films on Ag{111} Induced by Large and Slow Ar Clusters, 10.1021/jp076667q
  108. Rzeznik L., Czerwinski B., Paruch R., Garrison B.J., Postawa Z., Sputtering of thin benzene films by large noble gas clusters, 10.1016/j.nimb.2009.01.057
  109. Rzeznik L., Paruch R., Czerwinski B., Garrison B.J., Postawa Z., Sputtering of thin films of bariated molecules of arachidic acid by large noble gas clusters, 10.1016/j.vacuum.2009.01.051
  110. Czerwinski Bartlomiej, Rzeznik Lukasz, Paruch Robert, Garrison Barbara J., Postawa Zbigniew, Effect of impact angle and projectile size on sputtering efficiency of solid benzene investigated by molecular dynamics simulations, 10.1016/j.nimb.2010.12.026
  111. Czerwinski B., Rzeznik L., Paruch R., Garrison B.J., Postawa Z., Damage analysis of benzene induced by keV fullerene bombardment, 10.1016/j.nimb.2009.01.058
  112. Tempez Agnès, Schultz J. A., Della-Negra S., Depauw J., Jacquet D., Novikov A., Lebeyec Y., Pautrat M., Caroff M., Ugarov M., Bensaoula H., Gonin M., Fuhrer K., Woods Amina, Orthogonal time-of-flight secondary ion mass spectrometric analysis of peptides using large gold clusters as primary ions, 10.1002/rcm.1342
  113. Novikov Alexey, Caroff Martine, Della-Negra Serge, Depauw Joël, Fallavier Mireille, Le Beyec Yvon, Pautrat Michèle, Schultz J. Albert, Tempez Agnès, Woods Amina S., The Aun cluster probe in secondary ion mass spectrometry: influence of the projectile size and energy on the desorption/ionization rate from biomolecular solids, 10.1002/rcm.1995
  114. Anders Christian, Urbassek Herbert M., Dependence of cluster ranges on target cohesive energy: Molecular-dynamics study of energetic Au402 cluster impacts, 10.1016/j.nimb.2007.10.019
  115. Anders Christian, Urbassek Herbert M., Cluster-size dependence of ranges of 100eV/atom Aun clusters, 10.1016/j.nimb.2004.10.023
  116. Restrepo Oscar A., Prabhakaran Aneesh, Delcorte Arnaud, Interaction of energetic clusters (Au3, Au400 and C60) with organic material and adsorbed gold nanoparticles, 10.1016/j.nimb.2010.11.014
  117. Restrepo Oscar A., Delcorte Arnaud, Au400Sputtering of a Polymer with Adsorbed Metal Nanoparticles: A Molecular Dynamics Study, 10.1021/jp201183a
  118. Zimmermann Steffen, Urbassek Herbert M., Sputtering of Au by cluster impact, 10.1016/j.nimb.2006.11.067
  119. Thompson M. W., II. The energy spectrum of ejected atoms during the high energy sputtering of gold, 10.1080/14786436808227358
  120. Pachuta Steven J., Cooks R. G., Mechanisms in molecular SIMS, 10.1021/cr00079a009
  121. Beuhler R., Friedman L., Larger cluster ion impact phenomena, 10.1021/cr00073a003
  122. Mahoney John F., Perel Julius, Lee Terry D., Martino P.A., Williams Peter, Shock wave model for sputtering biomolecules using massive cluster impacts, 10.1016/1044-0305(92)87058-7
  123. Carter G., Spike and shock processes in high energy deposition density atomic collision events in solids, 10.1080/01422447908229248
  124. Reimann, Fundatmental Process in Sputtering of Atoms and Molecules (1993)
  125. Bitensky I.S., Parilis E.S., Shock wave mechanism for cluster emission and organic molecule desorption under heavy ion bombardment, 10.1016/0168-583x(87)90135-2
  126. Johnson R. E., Sundqvist B. U. R., Hedin A., Fenyö D., Sputtering by fast ions based on a sum of impulses, 10.1103/physrevb.40.49
  127. Bitensky I.S., The spike formation probability in sputtering of solids under keV ion bombardment, 10.1016/0168-583x(93)95914-q
  128. Webb R. P., Harrison D. E., Evidence for ion‐induced hypersonic shock waves for computer simulations of argon ion bombardment of copper, 10.1063/1.92725
  129. Urbassek Herbert M., Michl Josef, A gas-flow model for the sputtering of condensed gases, 10.1016/0168-583x(87)90146-7
  130. Wong S.S., Röllgen F.W., Sputtering of large molecular ions by low energy particle impact, 10.1016/0168-583x(86)90139-4
  131. Jakas Mario M., Bringa Eduardo M., Thermal-spike theory of sputtering: The influence of elastic waves in a one-dimensional cylindrical spike, 10.1103/physrevb.62.824
  132. Jakas M. M., Bringa E. M., Johnson R. E., Fluid dynamics calculation of sputtering from a cylindrical thermal spike, 10.1103/physrevb.65.165425
  133. Sundqvist Bo U.R., Sputtering of bio-organic samples, 10.1016/0168-583x(90)90174-s
  134. Krantzman Kristin D., Webb Roger P., Garrison Barbara J., Simulations of C60 bombardment of Si, SiC, diamond and graphite, 10.1016/j.apsusc.2008.05.236
  135. Krantzman Kristin D., Garrison Barbara J., Theoretical Study of the Role of Chemistry and Substrate Characteristics in C60keV Bombardment of Si, SiC, and Diamond by Molecular Dynamics Simulations, 10.1021/jp808095m
  136. Zhigilei Leonid V., Kodali Prasad B. S., Garrison Barbara J., Molecular Dynamics Model for Laser Ablation and Desorption of Organic Solids, 10.1021/jp9634013
  137. Costa Anthony B., Cooks R. Graham, Simulation of atmospheric transport and droplet–thin film collisions in desorption electrospray ionization, 10.1039/b710511h
  138. Costa Anthony B., Graham Cooks R., Simulated splashes: Elucidating the mechanism of desorption electrospray ionization mass spectrometry, 10.1016/j.cplett.2008.08.020