what



    Movies:

    Links to latest group movies (can also use clickable icons below):

  1. To accompany Bavli et al below: Melting movies .
  2. A video film presented at ISC 2010 by H. Zilken based on studies by Adler/Mutat, here.
  3. To accompany Mutat et al below: Flow in Nanotubes
  4. To accompany Silverman et al below: Diamond Membranes

    These movies were produced at the Technion Visualization Centre .

  5. S. Goldberg and J. Adler, ``The Schroedinger Movie''
  6. I. Rosenblum, D. Saada, S. Brandon and J. Adler, ``Simulations in Diamond''. This movie has three parts, a general introduction to carbon and molecular dynamics for carbon, a section on ``Irradiation of Diamond'', by D. Saada, J. Adler and R. Kalish and a section on ``Stress in Diamond'', by I. Rosenblum, J. Adler, S. Brandon and A. Hoffmann.
  7. A. Silverman and J. Adler ``Animated Simulated Annealing''

    Submitted manuscripts:

    Everything either accepted or not written up yet!

    Some recent publications:

  8. P. Pine, Y. Yaish and J. Adler, ``Simulation of nanosensors based on single walled carbon nanotubes'', download to appear, IOP Conference Series.
  9. T. Mutat, M. Sheintuch and J. Adler, ``Single species transport and self diffusion in wide SWCNTs'', download, to appear, JCP.
  11. D. Mazvovsky, G. Halioua and Joan Adler, ``The role of projects in (Computational) Physics Education'', download , to appear, Physics Procedia.
  12. T. Vogel, T. Mutat, J. Adler and M. Bachmann, ``Morphological similarities of single-walled nanotubes and polymers adsorbed on nanowires'', link download, to appear, CiCP
  13. P. Bavli, E. Polturak and J. Adler, ``Molecular dynamics study of melting in the hcp metal Mg'', Phys. Rev. B, Vol 84, 235442 (2011) view
  14. P. Pine, Y. Yaish and J. Adler, ``The affect of boundary conditions on the vibrations of armchair, zigzag and chiral single walled carbon nanotubes'' J. Applied Physics, 2011, Vol 110, 124311, download Copyright (2011) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics. Selected for the January 9, 2012 issue (Vol 25, issue 2) of Virtual Journal of Nanoscale Science & Technology. The Virtual Journal, which is published by the American Institute of Physics and the American Physical Society in cooperation with numerous other societies and publishers, is an edited compilation of links to articles from participating publishers, covering a focused area of frontier research. You can access the Virtual Journal here.
  15. P. Pine, Y. Yaish and J. Adler, ``Thermal oscillations of structurally distinct single-walled carbon nanotubes'' Phys. Rev. B, 2011, Vol 84, 245409, pdf
  16. J. Adler, Y. Koenka and A. Silverman, ``Adventures in carbon visualization with AViz'', Physics Procedia, 2011, Vol 15, 7-16, download.
  17. T. Vogel, T. Mutat, J. Adler and M. Bachmann, "Accurate modeling approach for the structural comparison between monolayer polymer tubes and single-walled nanotubes" Physics Procedia, 2011, Vol 15, 87-91, download
  18. A. Silverman, J. Adler and R. Kalish, ``Diamond membrane surface after ion implantation induced graphitization for graphite removal: molecular dynamics simulation'', PRB 83 224206, 2011, Link download
  19. P. Pine, Y. Yaish and J. Adler, ``Simulation and vibrational analysis of thermal oscillations of single-walled carbon nanotubes,'' download, Phys. Rev. B 83, 155410 (2011) Link
  20. A. Silverman, A. Hoffman and J. Adler", Computational study of interstitial hydrogen atoms in nano-diamond grains embedded in an amorphous carbon shell'', Communications in Computational Physics, (2011), 9 , p. 843-58. download
  21. J. Adler, J. Zaffran, A. Silverman, A. Sorkin, O. Cohen and R. Kalish,``Simulation and visualization of nanodiamond and nanographite'', Computer Physics Communications, 182 , 2009, 2011, download
  22. T. Mutat, M. Sheintuch, and J. Adler, ``Prediction of small molecules transport and separation in carbon nanotubes,'' JCP, 134, 044908 (2011) may be found here or downloaded. Copyright (2011) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics.
    Selected for the February 7, 2011 issue (Vol 23, issue 5) of Virtual Journal of Nanoscale Science & Technology. The Virtual Journal, which is published by the American Institute of Physics and the American Physical Society in cooperation with numerous other societies and publishers, is an edited compilation of links to articles from participating publishers, covering a focused area of frontier research. You can access the Virtual Journal here. It was also selected for the Virtual Journal of Biological Physics Research, Vol 21, issue 3.
  23. J. Adler, A. Sorkin and R. Kalish, ``Visualization of nanodiamond formation in molten carbon under pressure'' in ``Recent Developments in Computer Simulation Studies in Condensed Matter Physics, XVV'', edited by D. P. Landau, S. P. Lewis and B. Schuttler, Physics Procedia, 7, (2010), 2-6. download
  24. J. Adler and Or Cohen, ``Solid Hydrogen - New twists on an old problem'' in``Recent Developments in Computer Simulation Studies in Condensed Matter Physics, X'', edited by D. P. Landau, S. P. Lewis and B. Schuttler, Physics Procedia 6, (2010), 2-6.download
  25. Eduardo Warszawski, J. Adler, Alon Hoffman and Amihai Silverman, ``Experiment (NEXAFS) versus simulation (DOS) for carbon allotropes'' in`Recent Developments in Computer Simulation Studies in Condensed Matter Physics, XI'', edited by D. P. Landau, S. P. Lewis and B. Schuttler, Physics Procedia, 3, (2010), 1381-1385. download
  26. P. Bavli and J. Adler ``Parallel codes for simulating elastic constants and melting in Ar and Mg,'', Physics Procedia, 4, (2010), 3-7. download
  27. J. Adler and P. Pine, ``Visualization Techniques for Modelling Carbon Allotropes'', Computer Physics Communications, (2009) 180,580-2, MCA.
  28. Cover image for front page of journal from paper by Sh. Michaelson, R. Akhvlediani, A. Hoffman, A. Silverman and J. Adler ``Hydrogen in nano-diamond films: experimental and computational studies'', selected as Editor's Choice for physica status solidi (a), September 2008, vol 9, 2099-2107.
  29. A. Sorkin, R. Kalish and J. Adler, ``Nanodiamond under pressure: Simulations in the presence of Hydrogen'', download, (2008), Phys. Rev. B., 78, 155435.
  30. Joan Adler, J. Fox, R. Kalish, T. Mutat, A. Sorkin and E. Warszawski ''The essential role of visualization for modeling nanotubes and nanodiamond'', download, (2007) Computer Physics Communications, 177, 19-20.
  31. Article in hebrew for ISCM newsletter. pdf
  32. V. Sorkin, E. Polturak and Joan Adler, ``The influence of boundaries on high pressure melting experiments'', ArXiv:cond-mat/0512574, (2006) Europhysics Letters, 76, 623-9.
  33. V. Sorkin, E. Polturak and Joan Adler, "Path Integral Monte Carlo study of phonons in the bcc phase of He3", http: Journal of Low temperature Physics, (2006) 143, 141-51.
  34. A. Sorkin, J. Adler and R. Kalish, ``Nucleation of diamond from liquid carbon under extreme pressures: Atomistic simulation'', Phys. Rev. B 74, 064115 (2006).
  35. O. Ofer, J. Adler and A. Hoffmann, ``Hydrogen bonding in diamond: a computational study" IJMPC, Vol 17 (2006)download.
  36. Joan Adler, Yaniv Gershon, R. Kalish, Tali Mutat, Anastassia Sorkin and Eduardo Warszwarski,`` Nanodiamond and Nanotubes: Visualization with Aviz'' in ``Recent Developments in Computer Simulation Studies in Condensed Matter Physics, XVIII'', (2006) edited by D. Landau, S. P. Lewis and B. Schuttler, download.
  37. S. Zommer, E. N. Ribak, S. G. Lipson, and J. Adler, ``Simulated annealing in ocular adaptive optics'', (2006) Optics Letters, 31 p. 939-941.
  38. D. P. Landau, B. Dunweg, M. Laradji, F. Tavazza, J. Adler, L. Cannavaccioulo, Xiaoliang Zhu, ``Monte Carlo Simulations of Compressible Ising Models: Do we understand them?'', (2006) in Computer Simulations in Condensed Matter Systems: From Materials to Chemical Biology, Vol. 2, Lecture Notes in Physics 704, 127-38.
  39. J. Adler and S. Rosen, ``Teaching applications of AViz'' for ``Recent Developments in Computer Simulation Studies in Condensed Matter Physics, XVII'', (2005) edited by D. Landau, S. P. Lewis and B. Schuttler.
  40. D. P. Landau, F. Tavazza and J. Adler, ``Monte Carlo Simulations of a Compressible Ising Ferromagnet at Constant Volume'' Computer Physics Communications, (2005), 169, 149-52.
  41. N. Schreiber and J. Adler, ``Monte Carlo study of the pure and dilute Baxter-Wu model'', cond-mat/0507394,(2005) J. Phys A, 38, 7253-67.
  42. V.Sorkin, E. Polturak and Joan Adler "Path Integral Monte Carlo study of phonons in the bcc phase of He4", ArXiv:cond-mat/0502108, (2005) Phys. Rev. B 71, 214304.
  43. R. Hihinashvilli, J. Adler, S.H. Tsai and D.P. Landau, ``Visualization of vector spin configurations'', for ``Recent Developments in Computer Simulation Studies in Condensed Matter Physics, XVI'', (2004) edited by D. Landau, S. P. Lewis and B. Schuttler.
  44. F. Tavazza, D.P. Landau, J. Adler,``Phase diagram and structural properties for a compressible Ising ferromagnet at constant volume'', (2004) Phys. Rev. B 70, 184103.
  45. I. Rosenblum, S. Prawer, Irina Rosenblum, J. O. Orwa and J. Adler, ``Unambiguous Identification of Point Defects in Diamond from Experiment and Computation'' download (2004), Chemical Physics Letters, 390 458-61.
  46. A. Sorkin, J. Adler and R. Kalish, ``Damage along an ion track in diamond: a computer simulation'', Phys. Rev B. 70, 064110.
  47. J. Adler, A Column for the Simulations section, edited by D. Stauffer in Computers in Science and Engineering, ``Visualization in Atomistic and Spin Simulations'', download (2003) Computers in Science and Engineering, 5, 61-65.
  48. J. Adler and U. Lev ``Bootstrap Percolation: Visualizations and Applications'' download , (2003), Brazilian Journal of Physics, 33, 641-4.
  49. V. Sorkin, E. Polturak and J. Adler, ``Molecular dynamics study of melting in a bcc metal - vanadium I: mechanical melting'', (2003), Phys. Rev B 68, 174102.
  50. V. Sorkin, E. Polturak and J. Adler, ``Molecular dynamics study of melting in a bcc metal - vanadium II: thermodynamic melting'', Phys. Rev B 68, 174103.
  51. J. Adler, V. Sorkin and E. Polturak, ``Visualization of Melting Simulations'' download in ``Recent Developments in Computer Simulation Studies in Condensed Matter Physics, XV'', (2003), edited by D. Landau, S. P. Lewis and B. Schuttler, p. .
  52. D. Stauffer, A. Aharony, L. da F. Costa, and J. Adler, ``Efficient Hopfield pattern recognition on a scale-freen neural network'', (2003), European Journal of Physics, B 32 (2003) 3,395-399 cond-mat/0212601
  53. J. Adler, A. Hashibon, N. Schreiber, A. Sorkin, S. Sorkin and G. Wagner, ``Visualization of MD and MC Simulations for Atomistic Modeling'', Computer Physics Communications, (2002) 147, 665-9 (VIZ).
  54. J. Adler, A. Hashibon and G. Wagner, ``Visualization and Real-Time Collaboration over Internet-2'' in ``Recent Developments in Computer Simulation Studies in Condensed Matter Physics, XIV'', (2002) edited by D. Landau, S. P. Lewis and B. Schuttler, Springer, p 160-5 (AHW).
  55. A. Hashibon, J. Adler, M. Finnis and W. D. Kaplan, ``Atomistic Study of structural correlations at a liquid/solid interface'', (2001) Computational Materials Science, (2002) 24, 443-52. cond-mat/0112492
  56. A. Hashibon, J. Adler, M. Finnis and W. D. Kaplan, Ordering at solid-liquid interfaces between dissimilar materials'' (2002), Interface Science, 9, 175-81 cond-mat/0112493
  57. E. Baskin, A. Reznik, D. Saada, J. Adler and R. Kalish, ``Model for the defect-related electrical conductivity in ion-damaged diamond'', (2001), Physical Review B, 64 224110 (baskin).
  58. A. Kanigel, J. Adler and E. Polturak, `` Influence of Point Defects on the Shear Elastic Coefficients and on the Melting Temperature of Copper'', (2001) International Journal of Modern Physics, C, 12 727-37 (amit).
  59. D. Saada, J. Adler and R. Kalish, ``Sulfur: a potential dopant for n-type diamond'', (2000) Appl. Phys. Lett., 77, 878-9. (SAK4).
  60. I. Rosenblum, J. Adler, S. Brandon and A. Hoffman ``Molecular Dynamics Simulation of Thermal Stress at the (001) Diamond Surface'', (2000) Phys Rev. B 62, 2920. (RAB3).
  61. J. Adler and A. Berengoltz ``A parallel algorithm for groundstate search using sequential communications'', in ``Recent Developments in Computer Simulation Studies in Condensed Matter Physics, XIII'', Springer,(2000) edited by D. Landau, S. P. Lewis and B. Schuttler, p. 71. download.
  62. D. Saada, J. Adler and R. Kalish, ``A New Lowest Energy Site for Hydrogen in Diamond'', (2000) Phys. Rev. B, 61, 10711. (SAK3).
  63. J. Adler, ``A Walk in Phase Space: Solidification into Crystalline and Amorphous States'' (1999) Am. J. Physics, 67, 1145-8, (AJP).
  64. J. Adler, A. Hashibon, A. Kanigel, I. Rosenblum and D. Saada, ``Visualization for Molecular Dynamics in Solids'', in ``Recent Developments in Computer Simulation Studies in Condensed Matter Physics, XI'',(1999) edited by D. Landau and B. Schuttler, Springer, 186-90. (AHKRS). See also our pages of (SG).
  65. D. Saada, J. Adler and R. Kalish, ``Computer simulation of damage in diamond due to ion-impact and its annealing'', (1999) Phys. Rev. B 59, 6650. (SAK2).
  66. I. Rosenblum, J. Adler and S. Brandon, ``Parallelization of implicitly long-range molecular dynamics potentials'', (1999), International Journal of Modern Physics, C, 10, 189. (RAB2). The programs are also on the server.
  67. A. Roder, J. Adler and W. Janke, ``High temperature series analysis of the free energy and susceptibility of the 2D random-bond Ising model'', (1999), Physica A, 265, 28-42. (RAJ2).
  68. I. Rosenblum, J. Adler and S. Brandon, ``Calculation of thermal properties of diamond from simulated phonon spectra'', (1998), Computational Material Science, 12, 9. (RAB).
  69. T. Kidan, J. Adler and A. Ron, ``Computer simulations for atoms inside a laser light potential'', (1998), Computers in Physics, 12, 471. The matlab files for this paper are described on this site and are avaliable here An html version of the papers and figures can also be viewed.
  70. A. Hashibon, J. Adler, G. Baum and S. Lipson, ``Roughening transitions and surface tension in an HCP lattice with higher neighbour interactions'', (1998), Physical Review B 58, 4120. (HABL) .
  71. A. Roder, J. Adler and W. Janke, ``High temperature series analysis of 2D random-bond Ising ferromagnets confirms the Shalaev, Shankar and Ludwig exponents'', (1998) Physical Review Letters, 80, 4697. (RJA) .
  72. Z. Salman and J. Adler, ``High and Low Temperature series estimates for the critical temperature of the 3D Ising model'', (1998) International Journal of Modern Physics C, 9 , 195. (ZA) .
  73. D. Saada, J. Adler and R. Kalish, ``Transformation of the Diamond ($sp^3$) to Graphite ($sp^2$) bonds by ion-impact'', (1998) International Journal of Modern Physics, C, 9, 61. (SAK) .
  74. J. Adler, A. Hashibon and S. G. Lipson, ``Roughening Transitions in HCP Lattices'', ``Recent Developments in Computer Simulation Studies in Condensed Matter Physics, X'', edited by D. Landau, Springer, (1998), 229. # 500 "publications.html~"
  75. D. Stauffer and J. Adler, ``Logarithmic Factors, Critical Temperature and Zero Temperature Flipping in the 4D Kinetic Ising model'', (1997) International Journal of Modern Physics C, 8, 263.
  76. Z. Salman and J. Adler, ``Series Analysis of Tricritical Behaviour: Mean-Field Model and Partial Differential Approximants'', (1997) J. Phys A, 30, 1979. An html version is avaliable .
  77. A. Gemintern, J. Adler and S. G. Lipson, ``Simulation of $^3$He Crystal Shapes'', (1997) Phys. Rev. B, 55, 15441.
  78. J. Adler and I. Chang, ``Visualization of Analysis of Series Expansions for Critical Behaviour with Logarithms'', (1997) International Journal of Modern Physics C, 8, 567.
  79. M. Gofman, J. Adler, A. Aharony, A. B. Harris and M. Schwarz, ``Critical Behaviour of the Random Field Ising Model'', (1996) Phys. Rev. B. 58 , 6362.
  80. J. Adler, ``Series versus Simulations'', (1996) for ``Annual Reviews of Computational Physics, Vol IV'', edited by D. Stauffer, 241, (A2) .
  81. J. Adler, ``Visualization Education in Israel'', (1996) for a special issue of ``Computer Graphics'', edited by J. Brown, Vol 30, p.16.
  82. R. R. P. Singh and J. Adler, ``High temperature expansion study of the Nishimori multicritical point in two and four dimensions'', (1996) Phys. Rev. B. 54 364.
  83. R. R. P. Singh and J. Adler, ``Hyperuniversal amplitude ratios and the central charge of the spin-1 Ising model'', (1996) Phys. Rev. B. 54 , 5296. # 558 "publications.html~"
  84. ``Ion beam-induced Damage in Diamond: Fundamental Understanding and Practical Applications'', R. Kalish, S. Prawer, C. Uzan-Saguy, Joan Adler and David Saada, Diamond Films and Technology 6 , 337 (1996); Recent progress in ``Diamond Electronics'', 1996 in proof.
  85. J. Adler and D. Stauffer, ``Dynamical critical behaviour of the four-dimensional Ising model'', (1995) International Journal of Modern Physics C, 6 , 807.
  86. J. Adler, ``Visualization in Condensed Matter Research and Education'', Proceedings of the Scientific Visualization Conference, Jerusalem, November 1995, 59-62.
  87. S.G. Lipson, Joan Adler, G. Baum, A. Gemintern and Adham Hashibon, ``Numerical Simulations of Roughening Temperatures in a Hexagonal Van-der-Waals He4 Crystal'', (1995) Journal of Low Temperature Physics, 101 683.
  88. J. Adler,``Modern Series Analysis Techniques and the Relation to Monte Carlo Results on Similar Models'', in ``Recent Developments in Computer Simulation Studies in Condensed Matter Physics, VIII'', edited by D. Landau, Springer, (1995), 5-17, (A1) .
  89. A. Silverman, A. Zunger, R. Kalish and J. Adler, ``Effects of configurational, positional and vibrational degrees of freedom on an alloy phase diagram : a Monte-Carlo study of Ga(1-x)In(x)P'', (1995) J. Phys. C 7 1167-80.
  90. I. Chang, Z. Lev, A. B. Harris, J. Adler and A. Aharony, ``Localization Length Exponents in Quantum Percolation'', (1995) Phys. Rev. Lett. 74 2094-7.
  91. A. Silverman, A. Zunger, R. Kalish and J. Adler, ``Correlated atomic displacements in the chemically random Ga(1-x)In(x)P alloy'', (1995) Phys. Rev. B, 51 10795-816.
  92. J. Adler and V. Privman, ``Series Analysis of Tricritical Behaviour: Mean-Field Model and Slicewise Pad\'e Approximants'', (1995) J. Phys. A , 28 2445-56.
  93. I. Chang, Z. Lev, A. B. Harris, J. Adler and A. Aharony, ``Localization Transition in Quantum Percolation'', ``Recent Developments in Computer Simulation Studies in Condensed Matter Physics, VIII'', edited by D. Landau, Springer, (1995), 133-9.
  94. A. Silverman, A. Zunger, R. Kalish and J. Adler, ``Atomic-scale structure of disordered Ga(1-x)In(x)P alloys'', (1995) Europhysics Letters, 31 373-378.
  95. J. Adler, A. Brandt, W. Janke and S. Shmuylian, ``Three State Potts Antiferromagnet on the Triangular Lattice'', (1995), J. Phys. A, 28 5117-5129.
  96. J. Adler, ``Series Expansions'', (1994) Computers in Physics, 8, 287-295. The programs from this paper can be found on our here.
  97. S. Shapira, L. Klein, J. Adler, A. Aharony and A. B. Harris, ``Phase diagram of the dilute Ising spin glass in general dimension'', (1994) Physical Review B, 49 8830-8841.
  98. D. Stauffer, J. Adler and A. Aharony, ``Universality at the three-dimensional Percolation Threshold'', (1994) J. Phys. A 27 L475-9.
  99. C. Munkel, D. Heermann, J. Adler, M. Gofman and D. Stauffer, ``The dynamic critical exponent of the 2,3, and 5 dimensional kinetic Ising model'', (1993) Physica A 193, 540-8.
  100. J. Adler, A. Aharony, R. Blumenfeld, A. B. Harris and Y. Meir, ``The distribution of the logarithms of currents in percolating resistor networks. II. Series expansions", (1993) Phys Rev B, 47, 5770-82 .
  101. M. Gofman, J. Adler, A. Aharony, A. B. Harris and D. Stauffer, ``Series and Monte-Carlo study of High-Dimensional Ising Models'', (1993) J. Stat. Phys, 71, 1219-28.
  102. M. Gofman, J. Adler, A. Aharony, A. B. Harris and M. Schwartz, ``Evidence for two exponent scaling in the random field Ising model'', (1993) Phys. Rev. Lett., 71, 1569-72.
  103. J. Adler, I. Chang and S. Shapira, ``Visualization of graphical methods of series analysis'', (1993) International Journal of Modern Physics C, 4, 1007-22.
  104. J. Adler, C. Holm and W. Janke, ``High-Temperature Series Analysis of the Classical Heisenberg and XY Model'', (1993) Physica A 201, 581-8.
  105. A. Silverman and J. Adler, ``Animated simulated annealing'', (1992) Computers in Physics, 6, 277-281. The programs from this paper can be found on our here.
  106. J. Adler and D. Stauffer, ``Monte Carlo and series study of corrections to scaling in the Baxter-Wu model'', (1992), Physica A 181, 396.
  107. J. Wang, A.B. Harris and J. Adler, ``Series approach to randomly diluted elastic networks'', (1992) Phys. Rev. B 45, 7084-93.
  108. J. Adler ``Bootstrap percolation'', (1991) Physica A, 171, 453-470.
  109. C. C. Wan, A. B. Harris and J. Adler, ``The dilute quantum antiferromagnet'', (1991) J. Appl. Physics 69, 5191-3.
  110. L. Klein, J. Adler, A. Aharony, A.B. Harris, and Y. Meir, ``Series expansions for the Ising spin glass in general dimension'', (1991), Phys. Rev. B 43, 11249-73.
  111. J. Adler and D. Stauffer, ``Search for liquid-gas transition above the critical temperature'', (1991), Physica A 175, 222-8.
  112. 62. Yu. L. Khait, A. Silverman, R. Weil and J. Adler, ``Large picosecond energy fluctuations of single atoms observed in molecular dynamics studies of a-Si'', (1991), Phys. Rev. B 44, 8308-11.
  113. J. Adler, ``Transmission of order in dilute magnets'', (1991), Physica A 177, 45-50.
  114. J. Adler, Y. Meir, A. Aharony, A. B. Harris, and L. Klein, ``Low concentration series in general dimension'' for a volume in honour of C. Domb: (1990) J. Stat. Phys. 58, 511-38.
  115. J. Adler, R. Gross and R. Warmund, ``Comparison of algorithms for bootstrap percolation models'', (1990), Physica A 163, 440-6.
  116. J. Adler, A. Aharony, Y. Meir, and A. B. Harris, ``Series study of percolation moments in general dimension", (1990), Phys. Rev. B 41, 9183-206.
  117. A. C. D. van Enter, J. Adler and J. A. M. S. Duarte, ``Finite size effects for some bootstrap percolation models'', (1990), J. Stat. Phys. 60, 323-332; A. C. D. van Enter, J. Adler and J. A. M. S. Duarte, Addendum to ``Finite size effects for some bootstrap percolation models'', (1991), J. Stat. Phys. 62, in proof.
  118. A. Silverman and J. Adler ``Site percolation threshold for the diamond lattice with diatomic substitution'', (1990), Phys. Rev. B 42 , 1369-1375.
  119. J. Adler ``Solid-on-solid models: series, simulation and telescopes'', (1990), Physica A 168, 646-54.
  120. E. Ribak, J. Adler and S. G. Lipson, ``Telescope phasing and groundstates of solid-on solid models'', (1990) J. Phys. A 23, L809-14.
  121. J. Adler and D. Stauffer, ``Evidence for non-universal exponents in bootstrap percolation'', (1990) J. Phys. A 23, L1119-25.

    A full list including pre-1990 papers here.

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