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Philosophical Magazine A Volume 58, 1988 - Issue 1
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Original Articles

The inference of interatomic forces from structural data on liquids

L. Reatto Dipartimento di Fisica, Università di Milano, via Celoria 16, 20133, Milano, Italy
Pages 37-52 | Published online: 20 Aug 2006

Citations (51)

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Philip E. Hoggan & N. H. March. (2012) Pair potential of liquid metallic Be from electron theory compared and contrasted with recent ab initio work on the free-space beryllium dimer. Physics and Chemistry of Liquids 50:3, pages 399-402.
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I. Nagy, N. H. March & P. M. Echenique. (2006) Homogeneous Fermi liquid with ‘artificial’ repulsive inverse square law interparticle potential energy. Physics and Chemistry of Liquids 44:5, pages 571-578.
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N.H. March & K. Ray. (1998) Force Fields in Liquid and Solid Cu Metal: Relation Between Quantum Chemical and Density Functional Treatments. Physics and Chemistry of Liquids 36:4, pages 207-214.
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By N. H. MARCH. (1997) Local coordination in relation to electronic structure of condensed conducting phases. Molecular Physics 92:3, pages 489-496.
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M. Blazej, N.H. March & F. Flores. (1995) Polarization interaction in relation to structure of liquid metals. Molecular Physics 86:4, pages 951-958.
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K.I. Golden & N.H. March. (1994) Liquid Structural Theories of Two- and Three-Dimensional Plasmas. Physics and Chemistry of Liquids 27:3, pages 187-193.
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K.I. Golden, N.H. March & A.K. Ray. (1993) Three-particle correlation function and structural theories of dense metallic liquids. Molecular Physics 80:4, pages 915-924.
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K.I. Golden & N.H. March. (1993) Thermodynamic Consistency and Classical Liquid Structural Theory. Physics and Chemistry of Liquids 26:1, pages 1-13.
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K. Tankeshwar & N.H. March. (1992) The Deviation of the Pair Potential from the Potential of Mean Force in Molten Na Near Freezing. Physics and Chemistry of Liquids 25:1, pages 59-64.
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N.H. March & B.V. Paranjape. (1992) Single-Particle and Collective Effects in Liquid Metals Near Freezing and in their Hot Solids. Physics and Chemistry of Liquids 24:4, pages 223-230.
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S.A. Egorov & N.H. March. (1992) Model and Experimental Direct Correlation Functions in Dense Charged Fluids. Physics and Chemistry of Liquids 24:3, pages 199-204.
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K. Schmidt, W.D. Kraeft & N.H. March. (1991) A Screened Ion—Ion Potential for Liquid Metals Derived from the Green Function Technique. Physics and Chemistry of Liquids 24:1-2, pages 103-117.
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N.H. March. (1990) Information Content of Diffraction Experiments on Liquids and Amorphous Solids. Physics and Chemistry of Liquids 22:3, pages 133-148.
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J.A. Ascough & N.H. March. (1990) Structure Inversion: Pair Potentials with Common Characteristics from Three Theories at Low Density on Liquid—Vapour Coexistence Curve of Cs. Physics and Chemistry of Liquids 21:4, pages 251-255.
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N.H. March. (1989) Electron Correlation, Chemical Bonding and the Metal-Insulator Transition in Expanded Fluid Alkalis. Physics and Chemistry of Liquids 20:4, pages 241-245.
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J.E. Enderby. (1988) The influence of interatomic forces on the structure of liquids: An experimental approach. Philosophical Magazine A 58:1, pages 5-11.
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Articles from other publishers (35)

David K. Belashchenko. (2020) Does the embedded atom model have predictive power?. Uspekhi Fizicheskih Nauk 190:12, pages 1233-1260.
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D K Belashchenko. (2020) Does the embedded atom model have predictive power?. Physics-Uspekhi 63:12, pages 1161-1187.
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D. K. Belashchenko. (2016) Universal Algorithm for Reconstruction of Atomic Models of Noncrystalline Systems. Russian Journal of Physical Chemistry A 90:4, pages 707-717.
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N. H. MARCH, G. G. N. ANGILELLA & R. PUCCI. (2013) NATURAL ORBITALS IN RELATION TO QUANTUM INFORMATION THEORY: FROM MODEL LIGHT ATOMS THROUGH TO EMERGENT METALLIC PROPERTIES. International Journal of Modern Physics B 27:30, pages 1330021.
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Marco D’Alessandro & Francesco Cilloco. (2010) Information-theory-based solution of the inverse problem in classical statistical mechanics. Physical Review E 82:2.
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N. H. March & Z. D. Zhang. (2009) Statistical–mechanical models with separable many-body interactions: especially partition functions and thermodynamic consequences. Journal of Mathematical Chemistry 47:1, pages 520-538.
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M. I. Mendelev, D. J. Sordelet & M. J. Kramer. (2007) Using atomistic computer simulations to analyze x-ray diffraction data from metallic glasses. Journal of Applied Physics 102:4.
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Gergely Tóth, Norbert Király & Attila Vrabecz. (2005) Pair potentials from diffraction data on liquids: A neural network solution. The Journal of Chemical Physics 123:17.
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V. Krakoviack, J.-P. Hansen & A. A. Louis. (2003) Influence of solvent quality on effective pair potentials between polymers in solution. Physical Review E 67:4.
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Gergely Tóth. (2003) An iterative scheme to derive pair potentials from structure factors and its application to liquid mercury. The Journal of Chemical Physics 118:9, pages 3949-3955.
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A A Louis. (2002) Beware of density dependent pair potentials. Journal of Physics: Condensed Matter 14:40, pages 9187-9206.
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M. I. Mendelev & D. J. Srolovitz. (2002) Determination of alloy interatomic potentials from liquid-state diffraction data. Physical Review B 66:1.
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A.A. Louis, P.G. Bolhuis, R. Finken, V. Krakoviack, E.J. Meijer & J.P. Hansen. (2002) Coarse-graining polymers as soft colloids. Physica A: Statistical Mechanics and its Applications 306, pages 251-261.
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P. G. Bolhuis & A. A. Louis. (2002) How To Derive and Parameterize Effective Potentials in Colloid−Polymer Mixtures. Macromolecules 35:5, pages 1860-1869.
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Gergely Tóth. (2001) Determination of pair-potential parameters from experimental structure factors. The Journal of Chemical Physics 115:10, pages 4770-4775.
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P. G. Bolhuis, A. A. Louis & J. P. Hansen. (2001) Many-body interactions and correlations in coarse-grained descriptions of polymer solutions. Physical Review E 64:2.
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A. A. Louis. (2001) Effective potentials for polymers and colloids: beyond the van der Waals picture of fluids?. Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 359:1782, pages 939-960.
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Gergely Tóth & András Baranyai. (2001) Molecular dynamics analog of the reverse Monte Carlo method. The Journal of Chemical Physics 114:5, pages 2027-2035.
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A. A. Louis, P. G. Bolhuis, J. P. Hansen & E. J. Meijer. (2000) Can Polymer Coils Be Modeled as “Soft Colloids”?. Physical Review Letters 85:12, pages 2522-2525.
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Gergely Tóth & András Baranyai. (2000) Direct determination of two-body potentials from measured pair structures. Journal of Molecular Liquids 85:1-2, pages 3-9.
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M.I Mendelev. (1999) Creation of two-component liquid alloys computer models from data of two diffraction experiments. Physica B: Condensed Matter 262:1-2, pages 40-48.
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D. K. Belashchenko & A. S. Ginzburg. (1999) Computer simulation of the structure of liquid cesium and determination of the pair potentials over a wide temperature range. Journal of Experimental and Theoretical Physics 88:1, pages 28-34.
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K. Srinivasa Rao & Raj Rajagopalan. (1998) Interaction forces in quasi-two-dimensional charged dispersions. Physical Review E 57:3, pages 3227-3233.
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N. H. March & M. P. Tosi. (2009) Diffraction and transport in dense plasmas: Especially liquid metals. Laser and Particle Beams 16:1, pages 71-81.
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M.I. Mendelev. (1998) An iterative procedure for the creation of computer models of non-crystalline materials from diffraction data. Journal of Non-Crystalline Solids 223:3, pages 230-240.
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Raj Rajagopalan & K. Srinivasa Rao. (1997) Interaction forces in charged colloids: Inversion of static structure factors. Physical Review E 55:4, pages 4423-4432.
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N. H. March. (1997) Forces between atoms and atomic planes in condensed metallic phases and in semiconducting silicon. International Journal of Quantum Chemistry 65:5, pages 907-917.
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M.I. Mendelev, D.K. Belashchenko & S.N. Ishmaev. (1996) Generation of Ni44Nb56 and Ni62Nb38 metallic glass computer models and investigation of their structures. Journal of Non-Crystalline Solids 205-207, pages 888-892.
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N.H. March. (1995) Molecular interactions in homogeneous and heterogeneous conducting phases. Journal of Molecular Structure: THEOCHEM 341:1-3, pages 261-269.
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M. Blazej & N. H. March. (1993) Long-range polarization interaction in simple liquid metals. Physical Review E 48:3, pages 1782-1786.
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M. Davidovic, U. Dahlborg, I. Ebbsjo & W.S. Howells. (1993) The nature of interatomic interactions in liquid metals from small-angle S(Q) data. Journal of Non-Crystalline Solids 156-158, pages 98-101.
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Norman H. March & Joseph F. MucciNorman H. March & Joseph F. Mucci. 1993. Chemical Physics of Free Molecules. Chemical Physics of Free Molecules 69 99 .
L Reatto & M Tau. (1992) Interatomic dispersion forces and small angle scattering from rare gas fluids. Journal of Physics: Condensed Matter 4:1, pages 1-14.
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F. Perrot & N. H. March. (1990) Pair potentials for liquid sodium near freezing from electron theory and from inversion of the measured structure factor. Physical Review A 41:8, pages 4521-4523.
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N. H. March. (1990) Molecular binding in free space and in cold dense plasmas. International Journal of Quantum Chemistry 38:S24, pages 621-632.
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