Research outputs: Prof. Graeme Ackland

  1. The Role of Trust in a Self-Organising Pharmaceutical Supply Chain Model with Variable Drug Quality and Imperfect Information
    Graeme Ackland, Edmund Chattoe-Brown, Heather Hamill, Kate R Hampshire, Simon Mariwah and Gerry Mshana, Journal of Artificial Societies and Social Simulation (2019)
  2. hcp → ω phase transition mechanisms in shocked zirconium DOI
    Hongxiang Zong, Yufei Luo, Xiangdong Ding, Turab Lookman and Graeme J. Ackland, Acta Materialia, 162, p. 126-135 (2019)
  3. MIST: A Simple and Efficient Molecular Dynamics Abstraction Library for Integrator Development
    Iain Bethune, Ralf Banisch, Elena Breitmoser, Antonia Collis, Gordon Gibb, Gianpaolo Gobbo, Charles Matthews, Graeme Ackland and Benedict Leimkuhler, Computer Physics Communications (2018)
  4. Icosahedral (H2)13 supermolecule
    Graeme Ackland and Miguel Martinez-Canales, Physical Review Materials, 2, 9 (2018)
  5. Developing an interatomic potential for martensitic phase transformations in zirconium by machine learning DOI
    Hongxiang Zong, Ghanshyam Pilania, Xiangdong Ding, Graeme J. Ackland and Turab Lookman, npj Computational Materials, 4, 1 (2018)
  6. Structural and electronic properties of the alkali metal incommensurate phases DOI
    Gavin Woolman, Victor Naden Robinson, Miriam Marqués, Ingo Loa, Graeme J. Ackland and Andreas Hermann, Physical Review Materials, 2, 5 (2018)
  7. Formation of H-2-rich iodine-hydrogen compounds at high pressure DOI
    Jack Binns, Philip Dalladay-Simpson, Mengnan Wang, Graeme J. Ackland, Eugene Gregoryanz and Ross T. Howie, Physical Review B: Condensed Matter and Materials Physics, 97, 2 (2018)
  8. Influence of transition group elements on the stability of the delta- and eta-phase in nickelbase alloys DOI
    Martin Baeker, Joachim Roesler, Tatiana Hentrich and Graeme Ackland, Modelling and simulation in materials science and engineering, 26, 1 (2017)
  9. Stacking Characteristics of Close Packed Materials DOI
    Christian H. Loach and Graeme J. Ackland, Physical Review Letters, 119, 20 (2017)
  10. Charge density wave in hydrogen at high pressure DOI
    Ioan B. Magdau and Graeme J. Ackland, Journal of Physics: Conference Series, 950 (2017)
  11. No experimental Fermi surface measurements have been reported or made on low-temperature martensitic lithium DOI
    Miguel Martinez-Canales, Ingo Loa and Graeme J. Ackland, Proceedings of the National Academy of Sciences, 114, 42 (2017)
  12. Hydrogenation induced carrier mobility polarity reversal in single layer AlN
    Graeme Ackland and Hongxiang Zong, Physica Status Solidi (RRL) (2017)
  13. When immiscible becomes miscible—Methane in water at high pressures DOI
    Ciprian G. Pruteanu, Graeme J. Ackland, Wilson C. K. Poon and John S. Loveday, Science Advances, 3, 8 (2017)
  14. The role of van der Waals and exchange interactions in high-pressure solid hydrogen DOI
    Sam Azadi and Graeme J. Ackland, Physical Chemistry Chemical Physics, 19, 32 , p. 21829-21839 (2017)
  15. Quantum and isotope effects in lithium metal DOI
    Graeme J. Ackland, Mihindra Dunuwille, Miguel Martinez-Canales, Ingo Loa, Rong Zhang, Stanislav Sinogeikin, Weizhao Cai and Shanti Deemyad, Science, 356, 6344 , p. 1254-1259 (2017)
  16. Origin of the abnormal diffusion of transition metal in rutile DOI
    Graeme Ackland, Linggang Zhu, Qing-Miao Hu, Jian Zhou and Zhimei Sun, Physical Review B: Condensed Matter and Materials Physics, 95, 245201 (2017)
  17. Infrared Peak Splitting from Phonon Localization in Solid Hydrogen DOI
    Ioan Magdau and Graeme J. Ackland, Physical Review Letters, 118, 14 (2017)
  18. Simple thermodynamic model for the hydrogen phase diagram DOI
    Ioan B. Magdau, Miriam Marques, Balint Borgulya and Graeme J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 95, 9 (2017)
  19. monteswitch DOI
    T. L. Underwood and G. J. Ackland, Computer Physics Communications, 215, p. 204-222 (2017)
  20. Development of an interatomic potential for the simulation of Defects, Plasticity and Phase Transformations in Titanium DOI
    Mikhail I. Mendelev, Thomas Underwood and Graeme Ackland, The Journal of Chemical Physics, 145, 15 (2016)
  21. Rapid Equilibration by algorithmic quenching the ringing mode in molecular dynamics DOI
    Graeme Ackland, MRS Advances, p. 1-9 (2016)
  22. Property trends in simple metals DOI
    Alan Nichol and Graeme J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 93, 18 (2016)
  23. Lattice-switch Monte Carlo: the fcc-bcc problem DOI
    T. L. Underwood and G. J. Ackland, Journal of Physics: Conference Series, 640, 1 (2015)
  24. Theory of high pressure hydrogen, made simple
    Ioan B Magdau, Floris Balm and Graeme J Ackland, Journal of Physics: Conference Series, 950 (2015)
  25. High temperature oxidation resistance in titanium-niobium alloys DOI
    B. E. Tegner, L. Zhu, C. Siemers, K. Saksl and G. J. Ackland, Journal of alloys and compounds, 643, p. 100-105 (2015)
  26. Transition metal solute interactions with point defects in fcc iron from first principles DOI
    D. J. Hepburn, E. MacLeod and G. J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 92, 1 (2015)
  27. Bearing down on hydrogen DOI
    Graeme J. Ackland, Science, 348, 6242 , p. 1429-1430 (2015)
  28. Appraisal of the realistic accuracy of molecular dynamics of high-pressure hydrogen DOI
    Graeme Ackland and Ioan B. Magdau, Cogent Physics, 2 (2015)
  29. Shear melting and high temperature embrittlement DOI
    Con Healy, Sascha Koch, Carsten Siemers, Debashis Mukherji and Graeme J. Ackland, Physical Review Letters, 114, 16 (2015)
  30. HOW DOES NIOBIUM IMPROVE THE OXIDATION RESISTANCE OF COMMERCIALLY PURE TITANIUM?
    Graeme Ackland, Carsten Siemers, Bengt E. Tegner, K. Saksl, F. Brunke and M, Kohnke (2015)
  31. Phonon Localization by Mass Disorder in Dense Hydrogen-Deuterium Binary Alloy DOI
    Ross T. Howie, Ioan B. Magdau, Alexander F. Goncharov, Graeme J. Ackland and Eugene Gregoryanz, Physical Review Letters, 113, 17 (2014)
  32. Probing atomic environments in alloys by electron spectroscopy DOI
    T. L. Underwood, G. J. Ackland and R. J. Cole, Physical Review B: Condensed Matter and Materials Physics, 90, 1 (2014)
  33. Efficacious calculation of Raman spectra in high pressure hydrogen DOI
    G. J. Ackland and I. B. Magdau, High Pressure Research, 34, 2 , p. 198-204 (2014)
  34. Molecular dynamics simulations of compression tension asymmetry in plasticity of Fe nanopillars DOI
    Con J. Healy and Graeme J. Ackland, Acta Materialia, 70, p. 105-112 (2014)
  35. Mechanism for radiation damage resistance in yttrium oxide dispersion strengthened steels DOI
    J. Brodrick, D. J. Hepburn and G. J. Ackland, Journal of Nuclear Materials, 445, 1-3 , p. 291-297 (2014)
  36. DEVELOPMENT OF OXIDATION RESISTANT TITANIUM ALLOYS BY NIOBIUM ADDITION
    Graeme Ackland, Carsten Siemers, Bengt E. Tegner, K. Saksl, F. Brunke and M, Kohnke (2014)
  37. High temperature Raman analysis of hydrogen phase IV from molecular dynamics DOI
    I. B. Magdau and G. J. Ackland, : Journal of Physics Conference Series (2014)
  38. Trapping of interstitial defects: filling the gap between the experimental measurements and DFT calculations DOI
    Linggang Zhu, Hao Wang, Qing-Miao Hu, Graeme J. Ackland and Rui Yang, Journal of Physics: Condensed Matter, 25, 43 (2013)
  39. First-principles study of helium, carbon, and nitrogen in austenite, dilute austenitic iron alloys, and nickel DOI
    D. J. Hepburn, D. Ferguson, S. Gardner and G. J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 88, 2 (2013)
  40. Identification of high-pressure phases III and IV in hydrogen: Simulating Raman spectra using molecular dynamics DOI
    Ioan B. Magdau and Graeme J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 87, 17 (2013)
  41. Molecular dynamics and object kinetic Monte Carlo study of radiation-induced motion of voids and He bubbles in bcc iron DOI
    G. J. Galloway and G. J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 87, 10 (2013)
  42. Phase transitions in europium at high pressures DOI
    R. J. Husband, I. Loa, G. W. Stinton, G. J. Ackland and M. I. McMahon, High Pressure Research, 33, 1 , p. 158-164 (2013)
  43. Atomic-Scale Modeling of the Dynamics of Titanium Oxidation DOI
    Linggang Zhu, Qing-Miao Hu, Rui Yang and Graeme J. Ackland, Journal of Physical Chemistry C, 116, 45 , p. 24201-24205 (2012)
  44. Polycrystalline iron under compression: Plasticity and phase transitions DOI
    Nina Gunkelmann, Eduardo M. Bringa, Keonwook Kang, Graeme J. Ackland, Carlos J. Ruestes and Herbert M. Urbassek, Physical Review B: Condensed Matter and Materials Physics, 86, 14 (2012)
  45. Mechanical properties: Overcoming old barriers DOI
    G. J. Ackland, Nature Materials, 11, 10 , p. 837-838 (2012)
  46. Paramagnetic and glass transitions in sudoku DOI
    A. Williams and G. J. Ackland, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 86, 3 (2012)
  47. Europium-IV: An Incommensurately Modulated Crystal Structure in the Lanthanides DOI
    R. Husband, I. Loa, G. Stinton, S. Evans, G. Ackland and M. Mcmahon, Physical Review Letters, 109, 9 (2012)
  48. The Structure of Eu-III DOI
    R J Husband, I Loa, G W Stinton, S R Evans, G J Ackland and M I Mcmahon, Journal of Physics: Conference Series, 377, 1 (2012)
  49. Experimental and theoretical study of Ti-6Al-4V to 220 GPa DOI
    S. G. MacLeod, B. E. Tegner, H. Cynn, W. J. Evans, J. E. Proctor, M. I. McMahon and G. J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 85, 22 (2012)
  50. Relative strength of phase stabilizers in titanium alloys DOI
    Bengt E. Tegner, Linggang Zhu and Graeme J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 85, 21 (2012)
  51. Defect and solute properties in dilute Fe-Cr-Ni austenitic alloys from first principles DOI
    T. P. C. Klaver, D. J. Hepburn and G. J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 85, 17 (2012)
  52. Validating molecular dynamics with direct imaging of radiation damage debris DOI
    P. D. Lane, G. J. Galloway, R. J. Cole, M. Caffio, R. Schaub and G. J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 85, 9 (2012)
  53. Boundaries between Ancient Cultures DOI
    Morrel H. Cohen and Graeme J. Ackland, Advances in complex systems, 15, 1-2 (2012)
  54. Binding of an oxide layer to a metal DOI
    Linggang Zhu, Qing-Miao Hu, Rui Yang and Graeme J. Ackland, Journal of Physical Chemistry C, 116, 6 , p. 4224-4233 (2012)
  55. Pseudopotential errors in titanium DOI
    Bengt E. Tegner and Graeme J. Ackland, Computational Materials Science, 52, 1 , p. 26 (2012)
  56. Lattice Dynamics of Dense Lithium DOI
    F. A. Gorelli, S. F. Elatresh, C. L. Guillaume, M. Marques, G. J. Ackland, M. Santoro, S. A. Bonev and E. Gregoryanz, Physical Review Letters, 108, 5 (2012)
  57. Interatomic potential development DOI
    G.J. Ackland, 1, p. 267-291 (2012)
  58. Mass-radius Relationships for Exoplanets DOI
    D. C. Swift, J. H. Eggert, D. G. Hicks, S. Hamel, K. Caspersen, E. Schwegler, G. W. Collins, N. Nettelmann and Graeme Ackland, Astrophysical Journal, 744, 1 (2012)
  59. Temperature dependence in interatomic potentials and an improved potential for Ti DOI
    G. J. Ackland, : Journal of Physics Conference Series (2012)
  60. The MOLDY short-range molecular dynamics package DOI
    Graeme J. Ackland, K. D'Mellow, S. L. Daraszewicz, D. J. Hepburn, M. Uhrin and K. Stratford, Computer Physics Communications, 182, 12 , p. 2587-2604 (2011)
  61. Twinning hierarchy, shape memory, and superelasticity demonstrated by molecular dynamics DOI
    M. Zelazny, R. Richardson and Graeme Ackland, Physical Review B: Condensed Matter and Materials Physics, 84, 14 (2011)
  62. Molecular dynamics simulation study of microstructure evolution during cyclic martensitic transformations DOI
    Oliver Kastner, Gunther Eggeler, Wolf Weiss and Graeme J. Ackland, Journal of the mechanics and physics of solids, 59, 9 , p. 1888-1908 (2011)
  63. Effects of local interaction and dispersal on the dynamics of size-structured populations DOI
    Thomas Adams, Graeme Ackland, Glenn Marion and Colin Edwards, Ecological Modelling, 222, 8 , p. 1414-1422 (2011)
  64. Crystal Structures of Dense Lithium: A Metal-Semiconductor-Metal Transition DOI
    M. Marques, Malcolm McMahon, E. Gregoryanz, M. Hanfland, C. L. Guillaume, C. J. Pickard, Graeme Ackland and Richard Nelmes, Physical Review Letters, 106, 9 (2011)
  65. Understanding plantation transformation using a size-structured spatial population model DOI
    Thomas Adams, Graeme Ackland, Glenn Marion and Colin Edwards, Forest Ecology and Management, 261, 3 , p. 799-809 (2011)
  66. First principles calculations of defects in unstable crystals: Austenitic iron
    G.J. Ackland, T.P.C. Klaver and D.J. Hepburn, p. 55-66 (2011)
  67. Ab initio calculations and interatomic potentials for iron and iron alloys: Achievements within the Perfect Project DOI
    L. Malerba, Graeme Ackland, C. S. Becquart, G. Bonny, C. Domain, S. L. Dudarev, C. -C. Fu, D. Hepburn, M. C. Marinica, P. Olsson et al., Journal of Nuclear Materials, 406, 1 , p. 718 (2010)
  68. Income and poverty in a developing economy DOI
    A. K. Chattopadhyay, Graeme Ackland and S. K. Mallick, Europhysics Letters, 91, 5 (2010)
  69. ALUMINIUM Simple metal no more
    Malcolm I. McMahon and Graeme J. Ackland, Nature Materials, 9, 8 , p. 607-608 (2010)
  70. Controlling Radiation Damage DOI
    Graeme Ackland, Science, 327, 5973 , p. 1587-1588 (2010)
  71. Emergent patterns in space and time from daisyworld: a simple evolving coupled biosphere-climate model DOI
    Graeme J. Ackland and A. Jamie Wood, Philosophical Transactions A: Mathematical, Physical and Engineering Sciences, 368, 1910 , p. 161-179 (2010)
  72. Interatomic forces for transition metals including magnetism
    D. J. Hepburni, J. Wallenius and Graeme Ackland, p. 85-92 (2010)
  73. Potassium under Pressure: A Pseudobinary Ionic Compound DOI
    M. Marques, Graeme Ackland, L. F. Lundegaard, G. Stinton, Richard Nelmes, Malcolm McMahon and J. Contreras-Garcia, Physical Review Letters, 103, 11 (2009)
  74. Boom and bust in continuous time evolving economic model DOI
    Graeme Ackland and Lawrence Mitchell, European Physical Journal B, 70, 4 , p. 567-573 (2009)
  75. Observation of the oP8 crystal structure in potassium at high pressure DOI
    L. F. Lundegaard, Miriam Marques, G. Stinton, Graeme Ackland, Richard Nelmes and Malcolm McMahon, Physical Review B: Condensed Matter and Materials Physics, 80, 2 (2009)
  76. Ordered sigma-type phase in the Ising model of Fe-Cr stainless steel DOI
    Graeme Ackland, Physical Review B: Condensed Matter and Materials Physics, 79, 9 (2009)
  77. LOAD-INDUCED MARTENSITIC TRANSFORMATIONS IN PSEUDO-ELASTIC LENNARD-JONES CRYSTALS
    Oliver Kastner and Graeme J. Ackland, p. 307-314 (2009)
  78. Martensitic transformations in 2D Lennard-Jones crystals
    O. Kastner and G.J. Ackland, p. 399-403 (2009)
  79. Mesoscale kinetics produces martensitic microstructure DOI
    Oliver Kastner and Graeme J. Ackland, Journal of the mechanics and physics of solids, 57, 1 , p. 109-121 (2009)
  80. Nature and stability of ice X DOI
    M. Marques, Graeme Ackland and John Loveday, High Pressure Research, 29, 2 , p. 208-211 (2009)
  81. Rescaled potentials for transition metal solutes in -iron DOI
    D. J. Hepburn, Graeme Ackland and P. Olsson, Philosophical magazine, 89, 34-36 , p. 3393-3411 (2009)
  82. Twenty five years of Finnis-Sinclair potentials DOI
    G. Ackland, Adrian Sutton and Vasek Vitek, Philosophical magazine, 89, 34-36 , p. 3111-3116 (2009)
  83. Metallic-covalent interatomic potential for carbon in iron DOI
    Derek J. Hepburn and Graeme J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 78, 16 (2008)
  84. Origin of incommensurate modulations in the high-pressure phosphorus IV phase DOI
    M. Marques, Graeme Ackland, L. F. Lundegaard, S. Falconi, C. Hejny, Malcolm McMahon, J. Contreras-Garcia and M. Hanfland, Physical Review B: Condensed Matter and Materials Physics, 78, 5 (2008)
  85. Molecular dynamics simulations of the martensitic phase transition process DOI
    Graeme J. Ackland, Andrew. P. Jones and R. Noble-Eddy, Materials science and engineering a-Structural materials properties microstructure and processing, 481, p. 11-17 (2008)
  86. The phonon spectrum of phase-I ammonia: Reassignment of lattice mode symmetries from combined molecular and lattice dynamics calculations DOI
    Anthony M. Reilly, Derek S. Middlemiss, M. Murshed Siddick, Derek A. Wann, Graeme J. Ackland, Chick C. Wilson, David W. H. Rankin and Carole A. Morrison, The Journal of Physical Chemistry A, 112, 6 , p. 1322-1329 (2008)
  87. Daisyworld: A review DOI
    Andrew J. Wood, Graeme J. Ackland, James G. Dyke, Hywel T. P. Williams and Timothy M. Lenton, Reviews of Geophysics, 46, 1 (2008)
  88. Lattice-switch Monte Carlo simulation for binary hard-sphere crystals DOI
    A. N. Jackson and Graeme Ackland, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 76, 6 (2007)
  89. Simulation of the interaction between Fe impurities and point defects in V DOI
    Mikhail I. Mendelev, Seungwu Han, Won-Joon Son, Graeme J. Ackland and David J. Srolovitz, Physical Review B: Condensed Matter and Materials Physics, 76, 21 (2007)
  90. Equation of state of solid nickel aluminide DOI
    Damian C. Swift, Dennis L. Paisley, Kenneth J. McClellan and Graeme J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 76, 13 (2007)
  91. Strategy bifurcation and spatial inhomogeneity in a simple model of competing sellers DOI
    Graeme Ackland and Lawrence Mitchell, Europhysics Letters, 79, 4 (2007)
  92. Evolving the selfish herd: emergence of distinct aggregating strategies in an individual-based model DOI
    Andrew J. Wood and Graeme J. Ackland, Proceedings of the Royal Society B-Biological Sciences, 274, 1618 , p. 1637-1642 (2007)
  93. Cultural hitchhiking on the wave of advance of beneficial technologies DOI
    Graeme J. Ackland, Markus Signitzer, Kevin Stratford and Morrel H. Cohen, Proceedings of the National Academy of Sciences, 104, 21 , p. 8714-8719 (2007)
  94. Development of an interatomic potential for the simulation of phase transformations in zirconium DOI
    M. I. Mendelev and Graeme Ackland, Philosophical Magazine Letters, 87, 5 , p. 349-359 (2007)
  95. Mutation of albedo and growth response produces oscillations in a spatial Daisyworld DOI
    A. J. Wood, Graeme Ackland and T. M. Lenton, Journal of Theoretical Biology, 242, 1 , p. 188-198 (2006)
  96. Constrained dynamics and extraction of normal modes from ab initio molecular dynamics: Application to ammonia DOI
    M. M. Siddick, Graeme Ackland and C. A. Morrison, The Journal of Chemical Physics, 125, 6 (2006)
  97. Magnetically induced immiscibility in the ising model of FeCr stainless steel DOI
    Graeme Ackland, Physical Review Letters, 97, 1 (2006)
  98. Two-band second moment model for transition metals and alloys DOI
    Graeme Ackland, Journal of Nuclear Materials, 351, 1-3 , p. 20-27 (2006)
  99. Ab initio simulations in liquid caesium at high pressure and temperature DOI
    S Falconi and Graeme Ackland, Physical Review B: Condensed Matter and Materials Physics, 73, 18 (2006)
  100. Applications of local crystal structure measures in experiment and simulation DOI
    A P Jones and Graeme Ackland, Physical Review B: Condensed Matter and Materials Physics, 73, 5 (2006)
  101. Structure of an amphiphilic lattice gas, and its relationship to microclustering of methanol in water DOI
    J A Guerin and Graeme Ackland, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 73, 2 (2006)
  102. Microscopic model of diffusion limited aggregation and electrodeposition in the presence of leveling molecules DOI
    E S Tweedie and Graeme Ackland, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 73, 1 (2006)
  103. Thermodynamically complete equations of state for nickel-titanium alloy DOI
    D C Swift, J G Niemczura, D L Paisley, R P Johnson, A Hauer, R E Hackenberg, J Cooley, D Thoma and Graeme Ackland, Journal of Applied Physics, 98, 9 (2005)
  104. Total energy calculation for high pressure selenium: the origin of incommensurate modulations in SeIV and the instability of proposed SeII DOI
    H Fox and Graeme Ackland, Journal of Physics: Condensed Matter, 17, 12 , p. 1851-1859 (2005)
  105. Atomistic modelling of the shape memory effect
    Graeme Ackland, p. 153-164 (2005)
  106. Effect of Fe segregation on the migration of a non-symmetric Sigma 5 tilt grain boundary in Al DOI
    M I Mendelev, D J Srolovitz, Graeme Ackland and S Han, Journal of Biomedical Materials Research Part A, 20, 1 , p. 208-218 (2005)
  107. Fermi surface effects in solid-solid phase transitions in simple metals under pressure
    Graeme Ackland, p. 657-662 (2005)
  108. Simulation of martensitic microstructure
    G.J. Ackland, Journal of Materials Science, 40, 12 , p. 3205-3208 (2005)
  109. Stability of CrSi 2 grown from the melt
    G.J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 71, 1 (2005)
  110. Stability of CrSi2 grown from the melt DOI
    Graeme Ackland, Physical Review B: Condensed Matter and Materials Physics, 71, 1 (2005)
  111. Total energy calculation for high pressure selenium: The origin of incommensurate modulations in Se IV and the instability of proposed Se II
    G.J. Ackland and H. Fox, Journal of Physics: Condensed Matter, 17, 12 , p. 1851-1859 (2005)
  112. Origin of the complex crystal structures of elements at intermediate pressure DOI
    I R Macleod and Graeme Ackland, New Journal of Physics, 6 (2004)
  113. Stabilization of large generalized Lotka-Volterra foodwebs by evolutionary feedback DOI
    I D Gallagher and Graeme Ackland, Physical Review Letters, 93, 15 (2004)
  114. Performance of an ab initio equation of state for magnesium oxide DOI
    S N Luo, D C Swift, R N Mulford, N D Drummond and Graeme Ackland, Journal of Physics: Condensed Matter, 16, 30 , p. 5435-5442 (2004)
  115. Strongly non-Arrhenius self-interstitial diffusion in vanadium DOI
    L A Zepeda-Ruiz, J Rottler, S W Han, Graeme Ackland, R Car and D J Srolovitz, Physical Review B: Condensed Matter and Materials Physics, 70, 6 (2004)
  116. Development of an interatomic potential for phosphorus impurities in alpha-iron DOI
    M I Mendelev, D J Srolovitz, S Han, A V Barashev and Graeme Ackland, Journal of Physics: Condensed Matter, 16, 27 (2004)
  117. Maximization principles and daisyworld DOI
    Graeme Ackland, Journal of Theoretical Biology, 227, 1 , p. 121-128 (2004)
  118. Ab initio model of porous periclase
    N D Drummond, D C Swift and Graeme Ackland, p. 1436-1439 (2004)
  119. Development of an interatomic potential for phosphorus impurities in α-iron
    G.J. Ackland, M.I. Mendelev, D.J. Srolovitz, S. Han and A.V. Barashev, Journal of Physics: Condensed Matter, 16, 27 (2004)
  120. Development of new interatomic potentials appropriate for crystalline and liquid iron DOI
    M I Mendelev, S Han, D J Srolovitz, Graeme Ackland, D Y Sun and M Asta, Philosophical magazine, 83, 35 , p. 3977-3994 (2003)
  121. First-principles thermodynamics of transition metals: W, NiAl, and PdTi DOI
    X Y Huang, K M Rabe and Graeme Ackland, Physical Review B: Condensed Matter and Materials Physics, 68, 21 (2003)
  122. Quantum mechanical predictions of nonscalar equations of state and nonmonotonic elastic stress-strain relations DOI
    D C Swift and Graeme Ackland, Applied Physics Letters, 83, 6 , p. 1151-1153 (2003)
  123. Maximisation Principles and Daisyworld
    G. J. Ackland, Journal of Theoretical Biology, 227, 121 (2003)
  124. Catastrophic desert formation in Daisyworld DOI
    M A Clark, T M Lenton and Graeme Ackland, Journal of Theoretical Biology, 223, 1 , p. 39-44 (2003)
  125. Crystal structures and shape-memory behaviour of NiTi DOI
    X Y Huang, Graeme Ackland and K M Rabe, Nature Materials, 2, 5 , p. 307-311 (2003)
  126. Two-band second moment model and an interatomic potential for caesium DOI
    Graeme Ackland and S K Reed, Physical Review B: Condensed Matter and Materials Physics, 67, 17 (2003)
  127. Interatomic potential for vanadium suitable for radiation damage simulations DOI
    S W Han, L A Zepeda-Ruiz, Graeme Ackland, R Car and D J Srolovitz, Journal of Applied Physics, 93, 6 , p. 3328-3335 (2003)
  128. First-principles study of the structural energetics of PdTi and PtTi DOI
    X Y Huang, K M Rabe and Graeme J Ackland, Physical Review B: Condensed Matter and Materials Physics, 67, 2 (2003)
  129. Self-interstitials in V and Mo DOI
    S Han, L A Zepeda-Ruiz, R Car, D J Srolovitz and Graeme Ackland, Physical Review B: Condensed Matter and Materials Physics, 66, 22 (2002)
  130. Devil's staircase in kinetically limited growth DOI
    GJ Ackland, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 66, 4 (2002)
  131. High pressure instrumentation DOI
    DJ Dunstan, NWA Van Uden and GJ Ackland, High Pressure Research, 22, 3-4 , p. 773-778 (2002)
  132. Calculation of free energies from ab initio calculation
    GJ Ackland, Journal of Physics: Condensed Matter, 14, 11 , p. 2975-3000 (2002)
  133. Lattice-switch Monte Carlo method DOI
    AN Jackson, AD Bruce and GJ Ackland, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 65, 3 (2002)
  134. Ab initio quasiharmonic equations of state for dynamically stabilized soft-mode materials DOI
    N.D. Drummond and G.J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 65 (2002)
  135. How do martensitic twin boundaries move? DOI
    U Pinsook and Graeme Ackland, p. 155-160 (2002)
  136. Lattice-switch Monte Carlo method: Application to soft potentials
    A.N. Jackson, A.D. Bruce and G.J. Ackland, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 65, 3 (2002)
  137. Thermodynamic properties from static-lattice calculations with soft modes
    N D Drummond and Graeme Ackland, p. 131-136 (2002)
  138. Pack formation in cycling and orienteering DOI
    Graeme Ackland, Nature, 413, 1 , p. 127 (2001)
  139. Ab initio molecular dynamics of liquid carbon disulphide
    G.J. Ackland and S.J. Clark, Molecular Physics, 99, 10 , p. 855-863 (2001)
  140. First-principles equations of state for simulations of shock waves in silicon
    D.C. Swift, G.J. Ackland, A. Hauer and G.A. Kyrala, Physical Review B: Condensed Matter and Materials Physics, 64, 21 , p. 2141071-21410714 (2001)
  141. High-pressure phases of group IV and III-V semiconductors DOI
    G.J. Ackland, Reports on Progress in Physics, 64, 4 , p. 483-516 (2001)
  142. Interaction between metallic p orbitals and the π orbitals of organic molecules: The binding between ethylene and aluminum
    E.M. King, S.J. Clark, C.F. Verdozzi and G.J. Ackland, Journal of Physical Chemistry B, 105, 3 , p. 641-645 (2001)
  143. Phase transitions of copper precipitates in Fe-Cu alloys
    J.J. Blackstock and G.J. Ackland, Philosophical Magazine A: Physics of Condensed Matter, Structure, Defects and Mechanical Properties, 81, 9 , p. 2127-2148 (2001)
  144. Theory of High Pressure Phases of Group-IV and III–V Semiconductors DOI
    G.J. Ackland, physica status solidi (b), 223, 2 , p. 361-368 (2001)
  145. Two disordered phases of the β-Tin structure in binary semiconductors
    G.J. Ackland, Physical Review Letters, 86, 23 , p. 5301-5304 (2001)
  146. Local size segregation in polydisperse hard sphere fluids DOI
    I Pagonabarraga, M E Cates and G J Ackland, Physical Review Letters, 84, 5 , p. 911-914 (2000)
  147. Atomistic simulation of shear in a martensitic twinned microstructure
    U. Pinsook and G.J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 62, 9 , p. 5427-5434 (2000)
  148. Computational analysis of the high-pressure structures of InSb
    A.A. Kelsey and G.J. Ackland, Journal of Physics: Condensed Matter, 12, 32 , p. 7161-7173 (2000)
  149. How Efficiently Do Three Pointlike Particles Sample Phase Space?
    S.G. Cox and G.J. Ackland, Physical Review Letters, 84, 11 , p. 2362-2365 (2000)
  150. Lattice-switch Monte Carlo method
    A.D. Bruce, A.N. Jackson, G.J. Ackland and N.B. Wilding, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 61, 1 , p. 906-919 (2000)
  151. Short-time reorientational processes in molecular fluids
    S.J. Clark, P.R.L. Markwick, G.J. Ackland and J. Crain, Europhysics Letters, 49, 1 , p. 34-40 (2000)
  152. Theoretical and computational study of high-pressure structures in barium
    S.K. Reed and G.J. Ackland, Physical Review Letters, 84, 24 , p. 5580-5583 (2000)
  153. Twinning deformation in martensite microstructure
    G.J. Ackland and U. Pinsook, p. 417-422 (2000)
  154. A first principles and mean field investigation of the conformational properties of 5CB
    CJ Adam, A Ferrarini, MR Wilson, GJ Ackland and J Crain, Molecular Physics, 97, 4 , p. 541-550 (1999)
  155. Calculation of anomalous phonons and the hcp-bcc phase transition in zirconium
    U. Pinsook and G.J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 59, 21 , p. 13642-13649 (1999)
  156. Simulation of microscopic strain in semiconducting heterojunctions
    A. Kelsey and G.J. Ackland, Modelling and simulation in materials science and engineering, 7, 3 , p. 311-320 (1999)
  157. Structural phase transitions in calcium
    PK Ahulwalia, SJ Clerk and GJ Ackland, A first principle calculation, p. 147-148 (1999)
  158. Compression mechanisms in quasimolecular XI3 (X = As, Sb, Bi) solids DOI
    H C Hsueh, R K Chen, H Vass, S J Clark, Graeme Ackland, Wilson Poon and J Crain, Physical Review B: Condensed Matter and Materials Physics, 58, 22 , p. 14812-14822 (1998)
  159. Simulation of martensitic microstructural evolution in zirconium
    U. Pinsook and G.J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 58, 17 , p. 11252-11257 (1998)
  160. Structure of crystalline methanol at high pressure
    DR Allan, SJ Clark, MJP Brugmans, GJ Ackland and WL Vos, Physical Review B: Condensed Matter and Materials Physics, 58, 18 (1998)
  161. Embrittlement and the bistable crystal structure of zirconium hydride - Ackland replies DOI
    GJ Ackland, Physical Review Letters, 81, 15 , p. 3301-3301 (1998)
  162. Dynamic overshoot in alpha-iron by atomistic simulations
    A Machova and GJ Ackland, Modelling and simulation in materials science and engineering, 6, 5 , p. 521-542 (1998)
  163. Transferability of first principles derived torsional potentials for mesogenic molecules and fragments
    C.J. Adam, S.J. Clark, M.R. Wilson, G.J. Ackland and J. Crain, Molecular Physics, 93, 6 , p. 947-954 (1998)
  164. Embrittlement and the bistable crystal structure of zirconium hydride DOI
    GJ Ackland, Physical Review Letters, 80, 10 , p. 2233-2236 (1998)
  165. High-pressure semiconductor-semimetal transition in TiS2
    D.R. Allan, A.A. Kelsey, S.J. Clark, R.J. Angel and G.J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 57, 9 , p. 5106-5110 (1998)
  166. Stability and electronic structure of the cinnabar phase in GaAs
    A.A. Kelsey, G.J. Ackland and S.J. Clark, Physical Review B: Condensed Matter and Materials Physics, 57, 4 (1998)
  167. Ab initio molecular polarisabilities of liquid crystals: Application to DOBAMBC and 5CB
    S.J. Clark, G.J. Ackland and J. Crain, Europhysics Letters, 44, 5 , p. 578-584 (1998)
  168. Dynamic overshoot in α-iron by atomistic simulations
    A. Machová and G.J. Ackland, Modelling and simulation in materials science and engineering, 6, 5 , p. 521-542 (1998)
  169. Electronic structure calculations of liquid crystal molecules
    SJ Clark, GJ Ackland and J Crain, Application to chiral solutes. : PROCEEDINGS OF THE SOCIETY OF PHOTO-OPTICAL INSTRUMENTATION ENGINEERS (SPIE), p. 166-170 (1998)
  170. Evaluation of free energy differences between crystalline phases using the lattice-switch Monte Carlo method
    GJ Ackland, NB Wilding and AD Bruce, : MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGS, p. 253-264 (1998)
  171. Evolution of microstructure in the bcc-hcp martensitic phase transition in zirconium
    GJ Ackland and U Pinsook, : MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGS, p. 281-286 (1998)
  172. Phase transitions in silicate perovskites from first principles
    M.C. Warren, G.J. Ackland, B.B. Karki and S.J. Clark, Mineralogical Magazine, 62, 5 , p. 585-598 (1998)
  173. Free energy of crystalline solids
    A.D. Bruce, N.B. Wilding and G.J. Ackland, Physical Review Letters, 79, 16 , p. 3002-3005 (1997)
  174. Practical methods in ab initio lattice dynamics
    GJ Ackland, MC Warren and SJ Clark, Journal of Physics: Condensed Matter, 9, 37 , p. 7861-7872 (1997)
  175. Ab initio studies of high-pressure structural transformations in silica (vol 55, pg 3465, 1997)
    BB Karki, MC Warren, L Stixrude, GJ Ackland and J Crain, Physical Review B: Condensed Matter and Materials Physics, 56, 5 , p. 2884-2884 (1997)
  176. Ab initio calculations of the self-interstitial in silicon DOI
    S.J. Clark and G.J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 56, 1 (1997)
  177. Comparison of bonding in amorphous silicon and carbon
    S.J. Clark, J. Crain and G.J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 55, 21 , p. 14059-14062 (1997)
  178. Properties of liquid crystal molecules from first principles computer simulation
    SJ Clark, CJ Adam, GJ Ackland, J White and J Crain, Liquid crystals, 22, 4 , p. 469-475 (1997)
  179. Computer simulation of point defect properties in dilute Fe-Cu alloy using a many-body interatomic potential
    G.J. Ackland, D.J. Bacon, A.F. Calder and T. Harry, Philosophical Magazine A: Physics of Condensed Matter, Structure, Defects and Mechanical Properties, 75, 3 , p. 713-732 (1997)
  180. Ab initio elasticity and lattice dynamics of AgGaSe2
    B.B. Karki, S.J. Clark, M.C. Warren, H.C. Hsueh, G.J. Ackland and J. Crain, Journal of Physics: Condensed Matter, 9, 2 , p. 375-380 (1997)
  181. Ab initio studies of high-pressure structural transformations in silica
    B.B. Karki, M.C. Warren, L. Stixrude, G.J. Ackland and J. Crain, Physical Review B: Condensed Matter and Materials Physics, 55, 6 , p. 3465-3471 (1997)
  182. Conformation energy surface for liquid crystal molecules from first principles
    SJ Clark, CJ Adam, GJ Ackland and J Crain, Molecular Crystals and Liquid Crystals Science and Technology - Section A: Molecular Crystals and Liquid Crystals, 299, p. 39-44 (1997)
  183. Conformation-dependent dipoles of liquid crystal molecules and fragments from first principles
    C.J. Adam, S.J. Clark, G.J. Ackland and J. Crain, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics, 55, 5 A , p. 5641-5649 (1997)
  184. Elastic instabilities in crystals from ab initio stress-strain relations
    B.B. Karki, G.J. Ackland and J. Crain, Journal of Physics: Condensed Matter, 9, 41 , p. 8579-8589 (1997)
  185. Elastic properties of orthorhombic MgSiO3 perovskite at lower mantle pressures
    BB Karki, L Stixrude, SJ Clark, MC Warren, GJ Ackland and J Crain, American Mineralogist, 82, 5-6 , p. 635-638 (1997)
  186. Electronic structure calculations of liquid crystal molecules: Application to chiral solutes
    S.J. Clark, G.J. Ackland and J. Crain, p. 166-170 (1997)
  187. High-pressure simulations of atom-vacancy solid solution
    D. Fuks, S. Dorfman and G. Ackland, 143-147 (1997)
  188. High-pressure simulations of atom-vacancy solid solution
    D Fuks, S Dorfman and G Ackland, Defect and Diffusion Forum, 143, p. 161-164 (1997)
  189. Properties of liquid crystal molecules from first principles computer simulation
    S.J. Clark, C.J. Adam, G.J. Ackland, J. White and J. Crain, Molecular Crystals and Liquid Crystals, 22, 4 , p. 469-475 (1997)
  190. Soft-mode phase transitions from first principles
    G.J. Ackland and M.C. Warren, Phase transitions, 61, 1-4 SEC. B , p. 215-223 (1997)
  191. Structure and elasticity of MgO at high pressure
    B.B. Karki, L. Stixrude, S.J. Clark, M.C. Warren, G.J. Ackland and J. Crain, American Mineralogist, 82, 1-2 , p. 51-60 (1997)
  192. Pressure-induced thermodynamic properties of atom-vacancy solid solution
    D. Fuks, S. Dorfman and G. Ackland, Physical Review B: Condensed Matter and Materials Physics, 54, 14 , p. 9726-9729 (1996)
  193. Vibrational properties of the layered semiconductor germanium sulfide under hydrostatic pressure
    HC Hsueh, MC Warren, H Vass, GJ Ackland, SJ Clark and J Crain, Physical Review B: Condensed Matter and Materials Physics, 53, 22 , p. 14806-14817 (1996)
  194. Ab initio studies of structural instabilities in magnesium silicate perovskite
    M.C. Warren and G.J. Ackland, Physics and Chemistry of Minerals, 23, 2 , p. 107-118 (1996)
  195. Tetrahedral structures and phase transitions in III-V semiconductors (vol 50, pg 8389, 1994)
    J Crain, RO Piltz, GJ Ackland, SJ Clark, MC Payne, V. Milman, JS Lin, PD Hatton and YH Nam, Physical Review B: Condensed Matter and Materials Physics, 52, 23 , p. 16936-16937 (1995)
  196. Theoretical stability limit of diamond at ultrahigh pressure
    S.J. Clark, G.J. Ackland and J. Crain, Physical Review B: Condensed Matter and Materials Physics, 52, 21 , p. 15035-15038 (1995)
  197. Exotic structures of tetrahedral semiconductors
    J CRAIN, SJ Clark and Graeme Ackland, Reports on Progress in Physics, 58, 7 , p. 705-754 (1995)
  198. High-pressure effects in the layered semiconductor germanium selenide
    HC Hsueh, H Vass, SJ Clark, J CRAIN and Graeme Ackland, Physical Review B: Condensed Matter and Materials Physics, 51, 23 , p. 16750-16760 (1995)
  199. Pressure-induced polymorphism in CuCl DOI
    H.-C. Hsueh, J.R. Maclean, S.J. Clark, Graeme Ackland, J. Crain, G.Y. Guo and M.-H. Lee, Physical Review B: Condensed Matter and Materials Physics, 51, 18 , p. 12216-12222 (1995)
  200. DEFECT, SURFACE AND DISPLACEMENT-THRESHOLD PROPERTIES OF ALPHA-ZIRCONIUM SIMULATED WITH A MANY-BODY POTENTIAL
    GJ ACKLAND, SJ WOODING, DJ BACON and Graeme Ackland, Philosophical Magazine A: Physics of Condensed Matter, Structure, Defects and Mechanical Properties, 71, 3 , p. 553-565 (1995)
  201. A THEORETICAL-STUDY OF PRESSURE EFFECTS ON SELENIUM-I
    SJ CLARK, GJ ACKLAND, H AKBARZADEH and Graeme Ackland, Journal of the Physics and Chemistry of Solids, 56, 3-4 , p. 329-334 (1995)
  202. Dense tetrahedral structures of compound semiconductor
    J CRAIN, RO Piltz, PD Hatton, SJ Clark and Graeme Ackland, Journal of the Physics and Chemistry of Solids, 56, 3-4 , p. 495-500 (1995)
  203. Erratum: Tetrahedral structures and phase transitions in III-V semiconductors (Phys. Rev. B (1994) 50, (8389))
    J. Crain, R.O. Piltz, G.J. Ackland, S.J. Clark, M.C. Payne, V. Milman, J.S. Lin, P.D. Hatton and Y.H. Nam, Physical Review B: Condensed Matter and Materials Physics, 52, 23 , p. 16936 (1995)
  204. Structure and properties of silicon XII: A complex tetrahedrally bonded phase DOI
    R.O. Piltz, J.R. MacLean, S.J. Clark, G.J. Ackland, P.D. Hatton and J. Crain, Physical Review B: Condensed Matter and Materials Physics, 52, 6 , p. 4072-4085 (1995)
  205. Reversible pressure-induced structural transitions between metastable phases of silicon
    J. Crain, G.J. Ackland, J.R. Maclean, R.O. Piltz, P.D. Hatton and G.S. Pawley, Physical Review B: Condensed Matter and Materials Physics, 50, 17 , p. 13043-13046 (1994)
  206. Pressure-induced symmetry breaking in tetrahedral networks
    G.J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 50, 11 , p. 7389-7392 (1994)
  207. Tetrahedral structures and phase transitions in III-V semiconductors
    J. Crain, R.O. Piltz, G.J. Ackland, S.J. Clark, M.C. Payne, V. Milman, J.S. Lin, P.D. Hatton and Y.H. Nam, Physical Review B: Condensed Matter and Materials Physics, 50, 12 , p. 8389-8401 (1994)
  208. Very low energy surface of silicon
    S.J. Clark, G.J. Ackland, J. Crain and M.C. Payne, Physical Review B: Condensed Matter and Materials Physics, 50, 8 , p. 5728-5731 (1994)
  209. THEORETICAL-STUDY OF HIGH-DENSITY PHASES OF COVALENT SEMICONDUCTORS .1. AB-INITIO TREATMENT
    J CRAIN, SJ CLARK, Graeme Ackland, MC PAYNE, V. MILMAN, PD HATTON and BJ REID, Physical Review B: Condensed Matter and Materials Physics, 49, 8 , p. 5329-5340 (1994)
  210. THEORETICAL-STUDY OF HIGH-DENSITY PHASES OF COVALENT SEMICONDUCTORS .2. EMPIRICAL-TREATMENT
    SJ CLARK, Graeme Ackland and J CRAIN, Physical Review B: Condensed Matter and Materials Physics, 49, 8 , p. 5341-5352 (1994)
  211. Theoretical study of high-density phases of covalent semiconductors. I. Ab initio treatment
    J. Crain, S.J. Clark, G.J. Ackland, M.C. Payne, V. Milman, P.D. Hatton and B.J. Reid, Physical Review B: Condensed Matter and Materials Physics, 49, 8 , p. 5329-5340 (1994)
  212. Theoretical study of high-density phases of covalent semiconductors. II. Empirical treatment
    S.J. Clark, G.J. Ackland and J. Crain, Physical Review B: Condensed Matter and Materials Physics, 49, 8 , p. 5341-5352 (1994)
  213. VIBRATIONAL ENTROPY OF ORDERED AND DISORDERED ALLOYS
    GJ ACKLAND and Graeme Ackland, p. 149-153 (1994)
  214. A theoretical study of selenium I under high pressure
    H. Akbarzadeh, S.J. Clark and G.J. Ackland, Journal of Physics: Condensed Matter, 5, 43 , p. 8065-8074 (1993)
  215. MANY-BODY POTENTIALS FOR CU-TI INTERMETALLIC ALLOYS AND A MOLECULAR-DYNAMICS STUDY OF VITRIFICATION AND AMORPHIZATION
    DT KULP, M SOB, [No Value] VITEK, T EGAMI and Graeme Ackland, Modelling and simulation in materials science and engineering, 1, 3 , p. 315-333 (1993)
  216. Equipartition and ergodicity in closed one-dimensional systems of hard spheres with different masses
    G.J. Ackland, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 47, 5 , p. 3268-3275 (1993)
  217. Interatomic forces and atomic structure of grain boundaries in copper-bismuth alloys
    M. Yan, M. Ob, D.E. Luzzi, V. Vitek, G.J. Ackland, M. Methfessel and C.O. Rodriguez, Physical Review B: Condensed Matter and Materials Physics, 47, 10 , p. 5571-5582 (1993)
  218. Phase-transition-induced defect formation in III-V semiconductors
    J. Crain, G.J. Ackland, R.O. Piltz and P.D. Hatton, Physical Review Letters, 70, 6 , p. 814-817 (1993)
  219. Vibrational and elastic effects of point defects in silicon
    S.J. Clark and G.J. Ackland, Physical Review B: Condensed Matter and Materials Physics, 48, 15 , p. 10899-10908 (1993)
  220. THEORETICAL-STUDY OF TITANIUM SURFACES AND DEFECTS WITH A NEW MANY-BODY POTENTIAL
    Graeme Ackland, Philosophical Magazine A: Physics of Condensed Matter, Structure, Defects and Mechanical Properties, 66, 6 , p. 917-932 (1992)
  221. Dynamics of bond-diluted Ising magnets
    K.A. Hawick, W.C.-K. Poon and G.J. Ackland, Journal of Magnetism and Magnetic Materials, 104-107, PART 1 , p. 423-424 (1992)
  222. ATOMIC-STRUCTURE AND CHEMICAL-COMPOSITION OF GRAIN-BOUNDARIES IN L1(2) INTERMETALLIC COMPOUNDS - RELATION TO INTERGRANULAR BRITTLENESS
    M YAN, Vaclav VITEK, GJ ACKLAND and Graeme Ackland, : NATO ADVANCED SCIENCE INSTITUTES SERIES, SERIES E, APPLIED SCIENCES, p. 335-353 (1992)
  223. Calculated energies and relaxations of the low-index planes of ordered Cu3Au
    W.E. Wallace and G.J. Ackland, Applied Surface Science, 275, 1-2 (1992)
  224. STRUCTURE OF GRAIN-BOUNDARIES IN L12 ALLOYS AT FINITE TEMPERATURES - EFFECTS OF DEVIATIONS FROM STOICHIOMETRY
    M YAN, [No Value] VITEK, GJ ACKLAND and Graeme Ackland, : MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGS, p. 139-144 (1992)
  225. Interpretation of cluster structures in terms of covalent bonding
    Graeme Ackland, Physical Review B: Condensed Matter and Materials Physics, 44, 8 , p. 3900-3908 (1991)
  226. A dynamic mechanism for retrograde solid solubility DOI
    Graeme Ackland, Philosophical Magazine Letters, 64, 1 , p. 15-19 (1991)
  227. ATOMISTIC MODELING OF EXTENDED DEFECTS IN METALLIC ALLOYS - DISLOCATIONS AND GRAIN-BOUNDARIES IN L12 COMPOUNDS
    [No Value] VITEK, GJ ACKLAND, J CSERTI and Graeme Ackland, : MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGS, p. 237-251 (1991)
  228. On the stability of random cubic alloys in the framework of pair potentials DOI
    V. VITEK and Graeme Ackland, Philosophical magazine b-Physics of condensed matter statistical mechanics electronic optical and magnetic properties, 62, 2 , p. 149-158 (1990)
  229. MANY-BODY POTENTIALS AND ATOMIC-SCALE RELAXATIONS IN NOBLE-METAL ALLOYS
    Graeme Ackland and Vasek VITEK, Physical Review B: Condensed Matter and Materials Physics, 41, 15 , p. 10324-10333 (1990)
  230. APPLICATION OF MANY-BODY POTENTIALS TO NOBLE-METAL ALLOYS
    GJ ACKLAND, [No Value] VITEK and Graeme Ackland, p. 193-202 (1989)
  231. EFFECT OF ORDERING ENERGY ON GRAIN-BOUNDARY STRUCTURE IN L12 ALLOYS
    GJ ACKLAND, [No Value] VITEK and Graeme Ackland, : MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGS, p. 105-111 (1989)
  232. Semiempirical model of covalent bonding in silicon
    G. Ackland, Physical Review B: Condensed Matter and Materials Physics, 40, 15 , p. 10351-10355 (1989)
  233. VALIDITY OF THE 2ND MOMENT TIGHT-BINDING MODEL
    GJ ACKLAND, MW FINNIS, [No Value] VITEK and Graeme Ackland, Journal of Physics F: Metal Physics, 18, 8 (1988)
  234. Theoretical study of the effect of point defects on the elastic constants of copper
    G.J. Ackland, Journal of Nuclear Materials, 152, 1 , p. 53-63 (1988)
  235. Validity of the second-moment tight-binding model DOI
    Graeme Ackland, Journal of Physics F: Metal Physics, 18, 8 (1988)
  236. Simple N-body potentials for the noble metals and nickel DOI
    Graeme Ackland, Vasek Vitek, G. Tichy and M.W. Finnis, Philosophical Magazine A: Physics of Condensed Matter, Structure, Defects and Mechanical Properties, 56, 6 , p. 735-756 (1987)
  237. AN IMPROVED N-BODY SEMIEMPIRICAL MODEL FOR BODY-CENTERED CUBIC TRANSITION-METALS
    GJ ACKLAND, R THETFORD and Graeme Ackland, Philosophical Magazine A: Physics of Condensed Matter, Structure, Defects and Mechanical Properties, 56, 1 , p. 15-30 (1987)
  238. An improved N-body semi-empirical model for body-centred cubic transition metals DOI
    Graeme Ackland and R THETFORD, Philosophical magazine, 56, p. 15-30 (1987)
  239. Semi-empirical calculation of solid surface tensions in body-centred cubic transition metals DOI
    Graeme Ackland and M.W. Finnis, Philosophical Magazine A: Physics of Condensed Matter, Structure, Defects and Mechanical Properties, 54, 2 , p. 301-315 (1986)