https://orcid.org/0000-0001-5198-4650
We are delighted and honoured to introduce this special issue of Molecular Physics celebrating the achievements and contributions of Jean-Pierre Hansen over the last five decades. Jean-Pierre is a highly renowned figure in the area of theory and simulation of fluids with seminal papers that have established lines of investigation for countless researchers. The contributions by his collaborators, friends, and colleagues collected in this issue offer but a small testament of the highest regard and esteem in which Jean-Pierre is held. It is particularly fitting to pay Jean-Pierre this tribute in Molecular Physics as a past editor of the journal from 2004 to 2013.
Jean-Pierre Hansen was born in the Grand Duchy of Luxembourg, a landlocked country bordered by Belgium, Germany, and France, on the 10th of May 1942. His father was in charge of Europe's largest rolling mill in Differdange, the home to much of the country's steel production, where Jean-Pierre spent his early youth. From 1953 to 1960 he attended the lycée (high school) at the Athénée Grand-Ducal de Luxembourg. On completing his baccalaureate, Jean-Pierre left Luxembourg for Belgium to read engineering at the Université de Liège in Belgium. He then switched to physics under the influence of the leading astrophysicist Paul Ledoux, and graduated in July 1964. On completing his undergraduate degree, Jean-Pierre started his ‘Doctorat de Troisième Cycle’ under the supervision of Bernard Jancovici and Dominique Levesque, with whom he published his first paper on a quantum Monte Carlo study of solid 3He and 4He. Following his Master's studies, Jean-Pierre started his ‘Doctorat d'Etat’ as a PhD student of Loup Verlet presenting his thesis entitled ‘Contribution à l'Etude des Systèmes de Lennard-Jones classiques et quantiques’ in June 1969, under the scrutiny of a committee chaired by Jacques Yvon. His seminal paper with Loup Verlet in 1969 on the phase transitions in the Lennard-Jones system became the seed of countless other research papers and studies of the phase equilibria in fluids by computer simulation techniques. On completing his PhD Jean-Pierre was promoted to ‘chargé de recherche’ at the Centre National de la Recherche Scientifique (CNRS).
As a postdoctoral research associate, Jean-Pierre spent a productive year in 1970–1971 at Cornell University, where he interacted with Neil Ashcroft, Geoffrey Chester, Jim Krumhansl, Mark Nelkin, Roy Pollock, and Ben Widom amongst others. He met many of the founding fathers of modern liquid-state theory including Lars Onsager, Berni Alder, Joel Lebowitz, Jerry Percus, and Bob Zwanzig at various conferences that year, and forged close relationships with some of his contemporaries, particularly David Chandler, Mike Klein, Roy Pollock, and Eduardo Waisman, who shared similar interests and who were to become life-long friends.
On his return from Cornell in 1971, Jean-Pierre married Martine. He was appointed Professor of Physics at the Université de Paris 6 (now Université Pierre et Marie Curie) in 1973, where he joined the ‘Laboratoire de Physique Théorique des Liquides’ headed by Savo Bratos. Jean-Pierre's main research focus at the time was on dense ionised matter and plasmas, as exemplified by his excellent work with Roy Pollock and Ian McDonald using Monte Carlo simulation. He established his research group on liquids, attracting excellent students (including Patrick Vieillefosse and Bernard Bernu, who were the first to complete their PhD under Jean-Pierre's supervision, Redha Mazighi, Jean-Marc Victor, Gilles Chabrier, and Jean-Louis Barrat) and eminent visitors (including Mike Klein, Ian McDonald, Yasha Rosenfeld, and Lennard Sjögren in the early days). Together with Ian McDonald, Jean-Pierre masterfully put together the now classic book on ‘Theory of Simple Liquids’, an indispensable read to any postgraduate student learning the ropes of the statistical mechanics of fluid systems, which is now fully up to date in its fourth edition. In 1980–1981 Jean-Pierre spent a sabbatical with Philippe Nozières' theory group at the Institut Laue-Langevin (ILL), European premier neutron scattering facility in Grenoble, where he met Herbert Capellman, Duncan Haldane, Alan Griffin, and John Hayter. This sabbatical in Grenoble kindled his interest in colloidal systems, which has remained with Jean-Pierre ever since. Upon returning to Paris he became scientific adviser at the Limeil Centre of the Commissariat à l'Energie Atomique (CEA), where he supervised the PhD research of Gilles Zerah and others, and began a long-standing collaboration with Jean Clérouin and Philippe Choquard's group in Lausanne.
An important milestone in Jean-Pierre's career was his move to Lyon in 1987 as research director to help establish the new Ecole Normale Supérieure (ENS), a major ‘Grande Ecole’ outside Paris. Together with Stephan Fauve, Jean-Pierre founded the Laboratoire de Physique de l'Ecole Normale Supérieure de Lyon, which is now one of the most reputable and thriving physics departments in France. As a testament to this, the First Liquid Matter Conference was held at the ENS-Lyon in 1990, attracting over 600 participants. The same year Jean-Pierre was awarded the Grand Prix de l'Etat of the Académie des Sciences, and in 1992 he was elected to the Institut Universitaire de France. Jean-Pierre's research group at ENS-Lyon included promising young scientists working on a broad range of areas, like Jean-Louis Barrat, now at Grenoble, and Gilles Chabrier, now Head of Astrophysics at ENS-Lyon. He supervised the theses of Lydéric Bocquet, Thierry Biben, Jean-Noël Roux, Emmanuel Trizac, and Karim Helal, who now hold senior positions at various academic institutions. He enjoyed collaborations with numerous renowned international visitors, including David Chandler, Mike Klein, Hartmut Löwen, Paul Madden, Jarek Piasecki, and Hiroo Totsuji, working on the glass transition, Brownian motion, dense plasmas, and charged colloidal dispersions. His papers with Hartmut Löwen and Paul Madden on non-linear counterion screening in colloidal suspensions in 1992–1993 offer an excellent example of the key contribution made by Jean-Pierre and his collaborators at the time.
During the spring of 1991 he started a close interaction with David Chandler's group in Berkeley, where he had been appointed Miller Visiting Professor. In 1994–1995 he then spent a productive sabbatical year as a Visiting Fellow of Balliol College at the Physical and Theoretical Chemistry Laboratory of Oxford University with Mark Child, David Logan, Paul Madden, and John Rowlinson. This visit stimulated his research interest in clay dispersions, leading to his statistical model of gelation with Marjolein Dijkstra and Paul Madden.
After 10 years in Lyon, Jean-Pierre was elected to the 1968 Chair of Chemistry at Cambridge, previously held by John Lennard-Jones, Christopher Longuet-Higgins, and David Buckingham. He moved to Cambridge in 1997 as Head of Theoretical Chemistry, starting a group with his first Cambridge PhD student, David Goulding, and first postdoctoral fellow, Ard Louis. Shortly after his move to Cambridge, the Société Française de Physique awarded him the 1998 ‘Prix Spécial’, in recognition of the scientific work he carried out in France over a period of over 30 years. Jean-Pierre's research in Cambridge focused on the statistical mechanics of complex fluids and biomolecular assemblies, as exemplified by his influential papers with Ard Louis and Peter Bolhuis on the treatment of polymer coils as soft colloids or his work with Rosalind Allen, Simone Melchionna, and Joe Dzubiella on ion channels. Jean-Pierre was elected Fellow of the Royal Society a day before his 60th birthday in 2002. Subsequently, the European Physical Society (EPS) awarded him their first Liquid Matter Prize in 2005, and the Royal Society awarded him the Rumford Medal in 2006. In 2007 Jean-Pierre retired from the 1968 Chair, and he remains a Life Fellow of Corpus Christi, one of Cambridge's oldest Colleges.
On his return to Paris, Jean-Pierre joined the laboratory of his long-time friend Pierre Turq (who very sadly passed away in May 2015) at the Université Pierre et Marie Curie, where Jean-Pierre is still an active emeritus professor and a source of inspiration for his colleagues. His recent activities include research on polyelectrolyte solutions and clays, together with local co-workers, as well as on the glass transition, in particular with Jean-Marc Bomont and Giorgio Pastore. In 2013, he was awarded the Berni J. Alder CECAM Prize, in recognition of his exceptional contributions to the field of microscopic simulation of matter.
List of publications
Books
1. J.-P. Hansen and I.R. McDonald, Theory of SimpleLiquids, 1st ed. (Academic Press, London, 1976).
2. J.-P. Hansen and I.R. McDonald, Theory of SimpleLiquids, 2nd ed. (Academic Press, London, 1986).
3. J.-P. Hansen, D. Levesque and J. Zinn-Justin, editors,Liquids, Freezing and the Glass Transition, Proceedingsof Les Houches Summer School, 1989 (North Holland,Amsterdam, 1991).
4. C. Caccamo, J.-P. Hansen and G. Stell, editors, NewApproaches to Problems in Liquid State Theory,(Kluwer, Dordrecht, 1999).
5. J.-L. Barrat and J.-P. Hansen, Basic Concepts for Simpleand Complex Liquids, (Cambridge University Press,Cambridge, 2003).
6. J.-P. Hansen and I.R. McDonald, Theory of SimpleLiquids, 3rd ed. (Academic Press, Amsterdam, 2006).
7. J.-P. Hansen and I.R. McDonald, Theory of SimpleLiquids: With Applications to Soft Matter, 4th ed.(Academic Press, Amsterdam, 2013).
Articles
1. J.-P. Hansen and D. Levesque, “Ground State of Solid Helium -4 and -3”, Phys. Rev. 165, 293 (1968).
2. J.-P. Hansen, “Ground State of Solid Neon”, Phys. Rev. 172, 919 (1968).
3. J.-P. Hansen and L. Verlet, “Phase Transitions of the Lennard-Jones System”, Phys. Rev. 184, 151 (1969).
4. G. Meissner and J.-P. Hansen, “Monte Carlo Calculations of the Density Dependence of Sound Velocities in Solid Neon”, Phys. Lett. 30A, 61 (1969).
5. J.-P. Hansen, “HCP-BCC Phase Transition in the Ground State of Solid He3”, Phys. Lett. 30A, 214 (1969).
6. J.-P. Hansen and J.-J. Weis, “Quantum Corrections to the Coexistence Curve of Neon Near the Triple Point”, Phys. Rev. 188, 314 (1969).
7. J.-P. Hansen and D. Schiff, “Variational Calculation of the Properties of Liquid He3-He4 Mixtures at O°K”, Phys. Rev. Lett. 23, 1488 (1969).
8. J.-P. Hansen, “Phase Transition of the Lennard-Jones System II, High-Temperature Limit”, Phys. Rev. A2, 221 (1970).
9. J.-P. Hansen, “Etat Fondamental de l'Hélium Solide: Quelques Aspects Théoriques”, J. de Physique 31, Supplément C3, 67 (1970).
10. J.-P. Hansen, D. Levesque and D. Schiff, “The Fluid-Solid Transition of a Hard-Sphere Bose System at Zero Temperature”, Phys. Rev. A3, 776 (1970).
11. J.-P. Hansen, “Influence of Two-Body Potential on the Ground-State Properties of Solid Helium”, Phys. Lett. 34A, 25 (1971).
12. J.-P. Hansen and E.L. Pollock, “Ground-State Properties of Solid Helium -4 and -3”, Phys. Rev. A5, 2651 (1972).
13. J.-P. Hansen and E.L. Pollock, “Liquid-Helium Configuration Around a Metastable Excited Helium Atom”, Phys. Rev. A5, 2214 (1972).
14. J.-P. Hansen and J.-J. Weis, “Radial Distribution Function of Inverse-12 (Soft-Sphere) Fluids”, Mol. Phys. 23, 853 (1972).
15. J.-P. Hansen, “Crystallization of the Classical One-Component Plasma”, Phys. Lett. 41A, 213 (1972).
16. J.-P. Hansen, B. Jancovici and D. Schiff, “Phase Diagram of a Charged Bose Gas”, Phys. Rev. Lett. 29, 991 (1972).
17. J.-P. Hansen and D. Schiff, “Influence of Interatomic Repulsion on the Structure of Liquids at Melting”, Mol. Phys. 25, 1281 (1973).
18. J.-P. Hansen, “Statistical Mechanics of Dense Ionized Matter. I. Equilibrium Properties of the Classical One-Component Plasma”, Phys. Rev. A 8, 3096 (1973).
19. E.L. Pollock and J.-P. Hansen, “Statistical Mechanics of Dense Ionized Matter. II. Equilibrium Properties and Melting Transition of the Crystallized One-Component Plasma”, Phys. Rev. A 8, 3110 (1973).
20. J.-P. Hansen, E.L. Pollock and I.R. McDonald, “Velocity Autocorrelation Function and Dynamical Structure Factor of the Classical One-Component Plasma”, Phys. Rev. Lett. 32, 277 (1974).
21. J.-P. Hansen and M.L. Klein, “Computer Experiments on Solid Rare Gases: The Dynamical Structure Factor”, J. de Physique 35, L-29 (1974).
22. J.-P. Hansen and I.R. McDonald, “Self Diffusion and Electrical Conductance in a simple Molten Salt”, J. Phys. C7, L-384 (1974).
23. J.-P. Hansen, I.R. McDonald and E.L. Pollock, “Statistical Mechanics of Dense Ionized Matter. III. Dynamical Properties of the One-Component Plasma”, Phys. Rev. A11, 1025 (1975).
24. J.-P. Hansen and E.L. Pollock, “Comment on Phase Transition in a Lennard-Jones System”, J. Chem. Phys. 62, 4581 (1975).
25. J.-P. Hansen, “Electron Screening Corrections in Dense Ionized Matter”, J. de Physique 36, L-133 (1975).
26. J.-P. Hansen and P. Vieillefosse, “Quantum Corrections in Dense Ionized Matter”, Phys. Lett. A53, 187 (1975).
27. J.-P. Hansen and I.R. McDonald, “Statistical Mechanics of Dense Ionized Matter. IV. Density and Charge Fluctuations in a Simple Molten Salt”, Phys. Rev. A11, 2111 (1975).
28. P. Vieillefosse and J.-P. Hansen, “Statistical Mechanics of Dense Ionized Matter. V. Hydrodynamic Limit and Transport Coefficients of the Classical One-Component Plasma”, Phys. Rev. A12, 1106 (1975).
29. J.-P. Hansen and M.L. Klein, “The Dynamical Structure Factor S(q,w) of Rare Gas Solids”, Phys. Rev. B 13, 878 (1976).
30. S. Galam and J.-P. Hansen, “Statistical Mechanics of Dense Ionized Matter. VI. Electron Screening Corrections to the Thermodynamic Properties of the One Component Plasma”, Phys. Rev. A 14, 816 (1976).
31. B.J. Alder, H.L. Strauss, J.-J. Weis, J.-P. Hansen and M.L. Klein, “A Molecular Dynamics Study of the Intensity and Band Shape of Depolarized Light Scattered from Rare Gas Crystals”, Physica B 83, 249 (1976).
32. H. Minoo, C. Deutsch and J.-P. Hansen, “Electronic Transport in Dense Fully Ionized Hydrogen”, Phys. Rev. A 14, 840 (1976).
33. J.-P. Hansen and P. Vieillefosse, “Equation of State of the Classical Two-Component Plasma”, Phys. Rev. Lett. 37, 391 (1976).
34. H.R. Glyde, G.H. Keech, R. Mazighi and J.-P. Hansen, “Crystallization of the Charged Bose Gas”, Phys. Lett. 58 A, 226 (1976).
35. J.-P. Hansen and M.L. Klein, “Dynamical Structure Factor S(Q,w) of Solid Potassium”, Solid State Commun. 20, 771 (1976).
36. J.-P. Hansen and J.-J. Weis, “Charged Hard Spheres in a Uniform Neutralizing Background: Comparison of Monte Carlo Results with Perturbation Theories”, Mol. Phys. 33, 1379 (1977).
37. E. Brindeau, R. Levant and J.-P. Hansen, “A simple Model for Melting Curve Maxima”, Phys. Lett. 60 A, 424 (1977).
38. J.-P. Hansen, G.M. Torrie and P. Vieillefosse, “Statistical Mechanics of Dense Ionized Matter. VII. Equation of State and Phase Separation of Ionic Mixtures in a Uniform Background”, Phys. Rev. A 16, 2153 (1977).
39. H. Minoo, C. Deutsch and J.-P. Hansen, “Temperature Dependence of Resistivity and Structure of Liquid Alkali Metals”, J. de Physique Lett. 38, L 191 (1977).
40. H.R. Glyde, J.-P. Hansen and M.L. Klein, “Anharmonic Lattice Dynamics of Solid Potassium”, Phys. Rev. B 16, 3476 (1977).
41. B. Bernu, P. Vieillefosse and J.-P. Hansen, “Transport Coefficients of the Classical One-Component Plasma”, Phys Lett. 63 A, 301 (1977).
42. I.R. McDonald, P. Vieillefosse and J.-P. Hansen, “Time-dependent Density Fluctuations in a Strongly Coupled Ionic Mixture”, Phys. Rev. Lett. 39, 271 (1977).
43. D. Elkoubi, P. Turq and J.-P. Hansen, “Application of the HNC Approximation to Systems of Highly Charged Hard Spheres (Micelles)”, Chem. Phys. Lett. 52, 493 (1977).
44. J.-P. Hansen and I.R. McDonald, “Microscopic Simulation of a Hydrogen Plasma”, Phys. Rev. Lett. 41, 1379 (1978).
45. J.-P. Hansen and R. Mazighi, “Ground State of the Strongly Coupled, Charged Bose Gas”, Phys. Rev. A 18, 1282 (1978).
46. J.-P. Hansen, “Correlation Functions and Their Relationship with Experiments”, in Microscopic Structure and Dynamics of Liquids, edited by J. Dupuy and A.J. Dianoux, (Plenum, 1978).
47. D. Levesque, J.-J. Weis and J.-P. Hansen, “Simulation of Classical Fluids”, in Monte Carlo Methods, edited by K. Binder (Springer Verlag, 1978).
48. J.-P. Hansen, “Computer Simulation of Collective Modes and Transport Coefficients of Strongly Coupled Plasmas”, in Strongly Coupled Plasmas edited by G. Kalman (Plenum, 1978).
49. M. Baus and J.-P. Hansen, “A Semi-analytic Theory for the Static Properties of a One-Component Plasma”, J. Phys. C 12, L 55 (1979).
50. B. Brami, J.-P. Hansen and F. Joly, “Phase Separation of Highly Dissymmetric Binary Ionic Mixtures”, Physica A 95, 505 (1979).
51. M. Mazighi and J.-P. Hansen, “Elementary Excitations in a Strongly Coupled, Charged Bose Gas”, Phys. Lett. 71 A, 26 (1979).
52. J.-P. Hansen, D. Levesque and J.-J. Weis, “Self Diffusion in the Two-Dimensional Classical Electron Gas”, Phys. Rev. Lett. 43, 979 (1979).
53. R. Mochkovitch and J.-P. Hansen, “Fluid-Solid Coexistence Curve of Dense Coulombic Matter”, Phys. Lett. 73 A, 35 (1979).
54. J.-P. Hansen, I.R. McDonald and P. Vieillefosse, “Statistical Mechanics of Dense Ionized Matter. VIII. Dynamical Properties of Binary Ionic Mixtures”, Phys. Rev. A 20, 2590 (1979).
55. J.-P. Hansen, “Phase Separation of Ionic Mixtures”, J. de Physique 41, C2–43 (1980).
56. M. Baus and J.-P. Hansen, “Statistical Mechanics of Simple Coulomb Systems”, Phys. Rep. 59, 1 (1980).
57. P. Loubeyre and J.-P. Hansen, “Isotopic Effect of the High Pressure Melting Curves of Helium and Hydrogen”, Phys. Lett. 80 A, 181 (1980).
58. B.J. Alder, E.L. Pollock and J.-P. Hansen, “Phase Separation in Mixtures of Ionized Iron in a Hydrogen Plasma”, Proceedings of the National Academy of Sciences 77, 6272 (1980).
59. M. Baus, J.-P. Hansen and L. Sjögren, “Electrical Conductivity on a Fully Ionized, Weakly Degenerate Hydrogen Plasma”, Phys. Lett. 82 A, 180 (1981).
60. J.-P. Hansen and I.R. McDonald, “Microscopic Simulation of a Strongly Coupled Hydrogen Plasma”, Phys. Rev. A 23, 2041 (1981).
61. J.-P. Hansen, “Statistical Mechanics of Dense Plasmas”, in Laser-Plasma Interaction (Proceedings of Les Houches Summer School, July 1980), edited by R. Balian and J.C.l. Adam (North Holland, 1982).
62. J.-P. Hansen, R. Mazighi and P. Vieillefosse, “Miscibility of Charged Bose and Fermi Gases at Zero Temperature”, Phys. Lett. A 81, 215 (1981).
63. J.-P. Hansen, “On the Equivalence of Two Models of Charged Hard Spheres in a Uniform Background”, J. Phys. C 14, L151 (1981).
64. L. Sjögren, J.-P. Hansen and E.L. Pollock, “Self Diffusion, Conductivity and Long Wavelength Plasma Oscillations in Strongly Coupled Two-Component Plasmas”, Phys. Rev. A 24, 1544 (1981).
65. J.-P. Hansen and D. Levesque, “The Two-Dimensional One-Component Plasma in the Hyper-netted Chain Approximation”, J. Phys. C 14, L603 (1981).
66. J.-P. Hansen, “Plasmon Dispersion of the Strongly Coupled One Component Plasma in Two and Three Dimensions”, J. de Physique Lett. 42, L-397 (1981).
67. D. Léger, C. Deutsch and J.-P. Hansen, “Electronic Transport in Strongly Coupled and Fully Ionized H-He Mixtures”, J. de Physique Lett. 42, L-459 (1981).
68. J.-P. Hansen and L. Sjögren, “Plasma Oscillations and Sound Waves in Collision-Dominated Two-Component Plasmas”, Phys. Fluids 25, 617 (1982).
69. J.M. Caillol, D. Levesque, J.-J. Weis and J.-P. Hansen, “A Monte Carlo Study of the Classical Two-Dimensional One-Component Plasma”, J. Stat. Phys. 28, 325 (1982).
70. J.-P. Hansen and J.B. Hayter, “A Rescaled MSA Structure Factor for Dilute Charged Colloidal Dispersions”, Mol. Phys. 46, 651 (1982).
71. J.-P. Hansen, “Computer Simulation of Basic Plasma Phenomena”, in Laser-Plasma Interactions, edited by R.A. Cairns and J.-J. Sanderson, (Scottish Universities Summer School in Physics, Edinburgh, 1980).
72. B. Bernu and J.-P. Hansen, “Thermal Conductivity of a Strongly Coupled Hydrogen Plasma”, Phys. Rev. Lett. 48, 1375 (1982).
73. P. Loubeyre, J.M. Besson, J.-P. Pinceaux and J.-P. Hansen, “High-Pressure Melting Curve of 4He”, Phys. Rev. Lett. 49, 1172 (1982).
74. J.-P. Hansen, B. Brami and F. Joly, “Collective Dynamics and Transport in Binary Ionic Mixtures”, in Ionic Liquids, Molten Salts and Polyelectrolytes, (Lecture Notes in Physics, Springer, Berlin, 1982).
75. P.H. Fries and J.-P. Hansen, “A Monte Carlo Study of Semi-dilute Hard Sphere Mixtures”, Mol. Phys. 48, 891 (1983).
76. J.-P. Hansen and P. Viot, “Pair Correlations and Internal Energy of the Two-Dimensional Coulomb Gas”, Phys. Lett. 95 A, 155 (1983).
77. M. Baus and J.-P. Hansen, “Statistical Mechanics of Ionic Matter: Summary of a Workshop”, J. Stat. Phys. 31, 409 (1983).
78. J.-P. Hansen and I.R. McDonald, “Thermal Relaxation in a Strongly Coupled Two-Temperature Plasma”, Phys. Lett. 97 A, 42 (1983).
79. G. Chabrier and J.-P. Hansen, “A Simple Model for Solutions of Liquid Alkali and Alkali Halides”, Mol. Phys. 50, 901 (1983).
80. B. Bernu, J.-P. Hansen and R. Mazighi, “Influence of Effective Potentials on the Pair Correlations in Dense Semi-Classical, Hydrogen Plasmas”, Phys. Lett. 100 A, 28 (1984).
81. J.M. Victor and J.-P. Hansen, “Liquid-Gas Transition in Charged Colloïdal Dispersions”, J. de Physique Lett. 45, L-307 (1984).
82. J.-P. Hansen, “Au-delà des Liquides Simples”, in A travers la Physique, (Congrès 1983 de la SFP), les Editions de Physique (1984).
83. J.-P. Hansen, “Theory of Ionic Solutions”, J. de Physique 45, C7–97 (1984).
84. D. Levesque, J.-J. Weis and J.-P. Hansen, “Recent Developments in the Simulation of Classical Fluids”, in Monte Carlo Methods in Statistical Physics II, edited by K. Binder (Springer, Berlin, 1984).
85. J.-P. Hansen, “Structure and Dynamics of Charged Fluids”, in Amorphous Solids and the Liquid State, edited by N.H. March, R.A. Street and M.P. Tosi, (Plenum Press, New York, 1985).
86. J.-P. Hansen, “Phase Transitions in Coulomb Systems”, J. de Physique 46, C3–9 (1985).
87. J.M. Victor and J.-P. Hansen, “Spinodal Decomposition and Liquid-Vapour Phase Equilibrium in Charged Colloïdal Dispersions”, Trans. Faraday Soc. II 81, 43 (1985).
88. J.-P. Hansen and P. Viot, “Two-body Correlations and Pair Formation in Two-Dimensional Coulomb Gas”, J. Stat. Phys. 38, 823 (1985).
89. J.-P. Hansen and G. Zerah, “How Reliable Are Integral Equations for the Pair Structure of Binary Fluid Mixtures?”, Phys. Lett. 10 A, 277 (1985).
90. J. Clérouin and J.-P. Hansen, “Delocalization Transition of a Classical Two-Dimensional Coulomb Lattice”, Phys. Rev. Lett. 54, 2277 (1985).
91. B. Bernu, Y. Hiwatari and J.-P. Hansen, “A Molecular Dynamics Study of the Glass Transition in Binary Mixture of Soft Spheres”, J. Phys. C 18, L 371 (1985).
92. J.-P. Hansen, F. Joly and I.R. McDonald, “Self Diffusion, Interdiffusion and Long Wavelength Plasma Oscillations in Binary Ionic Mixtures”, Physica A 132, 472 (1985).
93. J.-P. Hansen, L. Reatto, M. Tau and J.M. Victor, “Validity of the High Temperature Approximation and Influence of Poly-dispersity on the Phase Separation in Charged Colloidal Dispersions”, Mol. Phys. 56, 385 (1985).
94. P. Loubeyre and J.-P. Hansen, “Correlated-Cell-Model Calculation of the High-Pressure Phase Diagram of Helium”, Phys. Rev. B 31, 634 (1985).
95. G. Chabrier and J.-P. Hansen, “Miscibility Gap in a Simple Model of Metal-Salt Solutions”, J. Phys. C 18, L757 (1985).
96. G. Zerah and J.-P. Hansen, “Self-Consistent Integral Equations for Fluid Distribution Functions: Another Attempt”, J. Chem. Phys. 84, 2336 (1986).
97. B. Bernu, J.-P. Hansen and R. Mazighi, “Effective Interionic Potentials for the Calculation of Low Frequency Electric Microfield Distributions in Dense Plasmas”, Europhys. Lett. 1, 281 (1986).
98. J.-P. Hansen, “Molecular Dynamics Simulation of Coulomb Systems in Two and Three Dimensions”, Proceedings of the Enrico Fermi Summer School Molecular Dynamics Simulation, edited by G. Ciccotti and W.G. Hoover, Varenna, XCII Corso (North Holland, Amsterdam, 1986).
99. J.-L. Barrat, M. Baus and J.-P. Hansen, “A Density Functional Theory of Freezing of Hard Sphere Mixtures into Substitutional Solid Solutions”, Phys. Rev. Lett. 56, 1063 (1986).
100. G. Chabrier, J.-P. Hansen and J.F. Joanny, “Longitudinal Collective Modes in Metal-Molten Salt Solutions”, J. Phys. C 19, 4443 (1986).
101. J.-L. Barrat and J.-P. Hansen, “On the Stability of Polydisperse Colloïdal Crystals”, J. de Physique 47, 1547 (1986).
102. A. Alastuey and J.-P. Hansen, “Mean Field Kinetic Theory of a Classical Electron Gas in a Periodic Field”, Euophys. Lett. 2, 97 (1986).
103. G. Chabrier and J.-P. Hansen, “A Perturbation Theory of the Miscibility Gap in Metal-Salt Solutions”, Mol. Phys. 59, 1345 (1986).
104. J.-P. Hansen, “The Two-Dimensional Coulomb Gas: A Fixed Ion Model and the Dynamic Characterization of the Dielectric-Plasma Transition”, Physica A 140, 150 (1986).
105. J.-L. Barrat, M. Baus and J.-P. Hansen, “Freezing of Binary Hard Sphere Mixtures into Disordered Crystals: A Density Functional Approach”, J. Phys. C 20, 1413 (1987).
106. J.-P. Hansen, “Basic Statistical Theory of Liquids”, Proceedings of NATO Summer School on Physics and Chemistry of Aqueous Ionic Solutions, Cargèse, edited by M.C. Bellissent and G.W. Neilson (Reidel, Dordrecht, 1987).
107. J.-L. Barrat, J.-P. Hansen, G. Pastore and E. Waisman, “Density Functional Theory of Soft Sphere Freezing”, J. Chem. Phys. 86, 6360 (1987).
108. J.M. Victor and J.-P. Hansen, “On the Form Factor of Two-Dimensional Polyelectrolytes under Strong Screening Conditions”, Europhys. Lett. 3, 1161 (1987).
109. J. Clérouin, J.-P. Hansen and B. Piller, “The Two-Dimensional Classical Electron Gas in a Periodic Field: Delocalization and Dielectric-Plasma-Transition”, Phys. Rev. A. 36, 2793 (1987).
110. B. Bernu, J.-P. Hansen, Y. Hiwatari and G. Pastore, “A Soft Sphere Model for the Glass Transition in Binary Alloys. I. Pair Structure and Self Diffusion”, Phys. Rev. A. 36, 4891 (1987).
111. J. Clérouin, J.-P. Hansen and B. Piller, “On the Dielectric Phase of the Periodic Two-Dimensional Coulomb Gas: Optical Modes, Delocalization and Melting”, Europhys. Lett. 4, 771 (1987).
112. J.-P. Hansen, “Two-Component Plasmas in Two and Three Dimensions”, In Strongly Coupled Plasmas, edited by F.J. Rogers and H.E. de Witt (Plenum, New York, 1987).
113. R. Mazighi, B. Bernu and J.-P. Hansen, “Influence of Effective Interionic Potentials on the Low Frequency Electric Microfield Distributions in Dense Semi-classical Plasmas”, In Strongly Coupled Plasmas, edited by F.J. Rogers and H.E. De Witt (Plenum, New York, 1987).
114. J.-L. Barrat, J.-P. Hansen and G. Pastore, “Factorization of the Triplet Direct Correlation Function in Dense Fluids”, Phys. Rev. Lett. 58, 2075 (1987).
115. J.-P. Hansen, “Phase Diagram and Collective Dynamics of Metal-Salt Solutions”, Zeitschrift f. Phys. Chemie, 156, 137 (1988).
116. J.-L. Barrat, J.-P. Hansen and G. Pastore, “On the Equilibrium Structure in Dense Fluids: Triplet Correlations, Integral Equations and Freezing”, Mol. Phys. 63, 747 (1988).
117. J.-L. Barrat and J.-P. Hansen, “Plasmon Dispersion in Dense, Partially Ionized Plasmas”, Physica A 149, 613 (1988).
118. J.-L. Barrat, H. Xu, J.-P. Hansen and M. Baus, “Freezing of Binary Hard Disk Alloys: Equation-of-State and Pair Structure of the Fluid Phase”, J. Phys. C 21, 3165 (1988).
119. G. Pastore, B. Bernu, J.-P. Hansen and Y. Hiwatari, “A Soft Sphere Model for the Glass Transition in Binary Alloys. II. Relaxation of the Incoherent Density-Density Correlation Functions”, Phys. Rev. A 38, 454 (1988).
120. A. Alastuey, J. Clérouin and J.-P. Hansen, “Mean-Field Kinetic Theory of a Classical Electron Gas in a Periodic Potential. III. The High Temperature Limit in Two Dimensions”, J. Stat. Phys. 52, 395 (1988).
121. J.-L. Barrat, J.-P. Hansen and H. Totsuji, “Collective Modes and Single-Particle Motion in Yukawa Fluids near Freezing”, J. Phys. C 21, 4511 (1988).
122. J.-L. Barrat, J.-P. Hansen and R. Mochkovitch, “Crystallization of Carbon-Oxygen Mixtures in White Dwarfs”, Astronomy Astrophys. 199, L 15 (1988).
123. B. Brami, F. Joly, J.-L. Barrat and J.-P. Hansen, “Influence of the Size Ratio on Freezing of Oppositely Charged Hard Spheres”, Phys. Lett. A 132, 187 (1988).
124. J.-L. Barrat, J.N. Roux, J.-P. Hansen and M.L. Klein, “Elastic Response of a Simple Amorphous Binary Alloy Near the Glass Transition”, Europhys. Lett. 7, 707 (1988).
125. H. Miyagawa, J. Hiwatari, B. Bernu and J.-P. Hansen, “Molecular Dynamics Study of Soft-Sphere Mixtures. Jump Motions of Atoms in the Glassy State”, J. Chem. Phys. 88, 3879 (1988).
126. G. Kahl and J.-P. Hansen, “Structure and Thermodynamics of Dilute Liquid Multicomponent Systems”, Mol. Phys. 67, 367 (1989).
127. Ph. Choquard, B. Piller, R. Rentsch, J. Clérouin and J.-P. Hansen, “Ionization and Phase Diagram of Classical Thomson Atoms on a Triangular Lattice”, Phys. Rev. A 40, 931 (1989).
128. J.-L. Barrat and J.-P. Hansen, “Theory of Inhomogeneous Fluids and Freezing”, in Simple Molecular Systems at Very High Density, edited by A. Polian, P. Loubeyre and N. Boccara, (Plenum Press, New York, 1989).
129. J.N. Roux, J.-L. Barrat and J.-P. Hansen, “Dynamical Diagnostics for the Glass Transition in Soft Sphere Alloys”, J. Phys. Condens. Matter 1, 7171 (1989).
130. J.-P. Hansen, “Recent Developments in the Theory of Ionic Melts”, Il Nuovo Cimento 12 D, 703 (1990).
131. T. Biben and J.-P. Hansen, “On the Structure of Hard-Sphere Suspensions in a Discrete Solvent”, Europhys. Lett. 12, 347 (1990).
132. J.-L. Barrat, J.N. Roux and J.-P. Hansen, “Diffusion, Viscosity and Structural Slowing Down in Soft Sphere Alloys Near the Kinetic Glass Transition”, Chem. Phys. 149, 197 (1990).
133. A. de Kuijper, W.L. Vos, J.-L. Barrat, J.-P. Hansen and J.A. Schouten, “Freezing of Simple Systems Using Density Functional Theory”, J. Chem. Phys. 93, 5187 (1990).
134. J. Clérouin, G. Zérah, D. Benisti and J.-P. Hansen, “Plasma Simulations Using the Car-Parrinello Method”, Europhys. Lett. 13, 685 (1990).
135. H. Löwen, J.N. Roux and J.-P. Hansen, “Mapping of Charge Polydispersity onto Size Polydispersity in Colloidal Suspensions”, J. Phys. Condens. Matter 3, 997 (1991).
136. J.-P. Hansen and F. Yoshida, “Concentration Dependence of the Ionic Structure and Dynamics in Metal-Salt Solutions”, J. Phys. Condens. Matter 3, 2583 (1991).
137. J.-P. Hansen, “Basic Concepts and Tools of Liquid State Theory”, in Hydrogen-Bonded Liquids, edited by J.C. Dore and J. Teixeira (Plenum Press, New York, 1991).
138. J.-P. Hansen and G. Chabrier, “Statistical Mechanics of High Pressure Equations-of-State and Freezing of Classical Fluids and Dense Plasmas”, in High-Pressure Equations of State: Theory and Applications, edited by S. Eliezer and R.A. Ricci (Scuola Interzionale di Fisica “Enrico Fermi”, 1989)., (North Holland, Amsterdam, 1991).
139. T. Biben and J.-P. Hansen, “Phase Separation of Asymmetric Binary Hard-Sphere Fluids”, Phys. Rev. Lett. 66, 2215 (1991).
140. H. Löwen, J.-P. Hansen and J.N. Roux, “Brownian Dynamics and Kinetic Glass Transition in Colloidal Suspensions”, Phys. Rev. A. 44, 1169 (1991).
141. H. Löwen and J.-P. Hansen, “Kinetic Glass Transition in a Charge-Polydisperse Colloidal Fluid”, J. Phys. Condens. Matter 3, F283 (1991).
142. T. Biben and J.-P. Hansen, “Spinodal Instability of Suspensions of Large Spheres in a Fluid of Small Spheres”, J. Phys. Condens. Matter 3, F65 (1991).
143. J.-P. Hansen, “An Introduction to Molecular Dynamics, with Applications to the Glass Transition”, In Computer Simulation in Materials Science, edited by M. Meyer and V. Pontikis, (Kluwer Academic Publishers, Dordrecht, 1991).
144. G. Zerah and J.-P. Hansen, “Plasma Simulations Using the Car-Parrinello Method”, J. Clérouin, In Computer Simulation in Materials Science, edited by M. Meyer and V. Pontikis, (Kluwer Academic Publishers, Dordrecht, 1991).
145. J.-L. Barrat, T. Biben and J.-P. Hansen, “Barometric Equilibrium as a Probe of the Equation of State of Colloidal Suspensions”, J. Phys. Condens. Matter 4, L11 (1992).
146. H. Löwen, P.A. Madden and J.-P. Hansen, “An Ab Initio Description of Counterion Screening in Colloidal Suspensions”, Phys. Rev. Lett. 68, 1081 (1992).
147. L. Bocquet, J.-P. Hansen, T. Biben and P.A. Madden, “Amorphisation of a Substitutional Binary Alloy: A Computer Experiment”, J. Phys. Condens. Matter 4, 2375 (1992).
148. H. Löwen and J.-P. Hansen, “A Statistical Mechanics Approach to Colloidal Suspensions”, Phys. Scripta T 45, 242 (1992).
149. T. Biben, J.-P. Hansen and H. Löwen, “Some Aspects of the Statistical Mechanics of Concentrated Colloidal Suspensions”, in Structure and Dynamics of Strongly Interacting Colloids and Supramolecular Aggregates, edited by S.H. Chen, J.S. Huang and P. Tartaglia (Kluwer Academic Publishers, Dordrecht, 1992).
150. H. Löwen, J.-P. Hansen and P.A. Madden, “Nonlinear Counterion Screening in Colloidal Suspensions”, J. Chem. Phys. 98, 3275 (1993).
151. T. Biben, J.-P. Hansen and J.-L. Barrat, “Density Profiles of Concentrated Colloidal Suspensions in Sedimentation Equilibrium”, J. Chem. Phys. 98, 7330 (1993).
152. J.-P. Hansen, “Colloidal Suspensions: An Example of Inhomogeneous, Complex Liquids”, J. Phys. Condens. Matter 5, B117 (1993).
153. A. Meroni, J.-P. Hansen and P.A. Madden, “An Application of Thomas-Fermi Molecular Dynamics to Metal-Salt Solutions”, J. Noncryst. Solids 156, 771 (1993).
154. A. Meroni and J.-P. Hansen, “A Molecular Dynamics Investigation of Longitudinal Collective Modes in Metal-Salt Solutions”, J. Phys. Condens. Matter 5, 5701 (1993).
155. T. Biben and J.-P. Hansen, “Localized Density Profiles in Binary Colloidal Suspensions”, Mol. Phys. 80, 853 (1993).
156. J.-P. Hansen, “The Kinetic Glass Transition: What Can We Learn from Molecular Dynamics Simulations?”, Physica A 201, 138 (1993).
157. T. Biben and J.-P. Hansen, “Sedimentation Equilibrium in Concentrated Charge-Stabilized Colloidal suspensions”, J. Phys. Condens. Matter 6, A345 (1994).
158. J.-P. Hansen and J. Piasecki, “An Introduction to Kinetic Equations for Neutral and Charged Fluids”, in “Statistical Description of Transport in Plasma, Astro- and Nuclear Physics”, edited by J. Misguich, G. Pelletier and P. Schuck (Nova Science, New York, 1994).
159. L. Bocquet, J. Piasecki and J.-P. Hansen, “On the Brownian Motion of a Massive Sphere Suspended in a Hard Sphere Fluid. I. Multiple Time Scale Analysis and Microscopic Expression for the Friction Coefficient”, J. Stat. Phys. 76, 505 (1994).
160. L. Bocquet, J.-P. Hansen and J. Piasecki, “On the Brownian Motion of a Massive Sphere Suspended in a Hard Sphere Fluid. II. Molecular Dynamics Estimates of the Friction Coefficient”, J. Stat. Phys. 76, 527 (1994).
161. M. Dijkstra, J.-P. Hansen and A. Meroni, “A simple Lattice Model for the Mixing Properties of Molten Kx(KCl)1-x solutions”, J. Phys. Condens. Matter 6, 2129 (1994).
162. H. Xu, J.-P. Hansen and D. Chandler, “Density Functional Theory and Freezing of an Ion-Electron Plasma”, Europhys. Lett. 26, 419 (1994).
163. M. Dijkstra, D. Frenkel and J.-P. Hansen, “Phase Separation in Binary Hard-Core Mixtures”, J. Chem. Phys. 101, 3179 (1994).
164. L. Bocquet, J.-P. Hansen and J. Piasecki, “A Kinetic Model for Brownian Motion”, Il Nuovo Cimento 16 D, 981 (1994).
165. J. Kohanoff and J.-P. Hansen, “Ab Initio Molecular Dynamics of Metallic Hydrogen at High Densities”, Phys. Rev. Lett. 74, 626 (1995).
166. E. Trizac and J.-P. Hansen, “Dynamic Scaling Behaviour of Ballistic Coalescence”, Phys. Rev. Lett. 74, 4144 (1995).
167. J. Piasecki, L. Bocquet and J.-P. Hansen, “Multiple Time Scale Derivation of the Fokker-Planck Equation for Two Brownian Spheres Suspended in a Hard-Sphere Fluid”, Physca A 218, 125 (1995).
168. M. Dijkstra, J.-P. Hansen and P.A. Madden, “Gelation of a Clay Colloid Suspension”, Phys. Rev. Lett. 75, 2236 (1995).
169. J.-P. Hansen and S. Yip, “Molecular Dynamics Investigations of Slow Relaxations in Supercooled Liquids”, Transport Theory Stat. Phys. 24, 1149 (1995).
170. J.-P. Hansen, “Colloidal Suspensions: Density Functional Theory at Work”, in Phase Transitions in Complex Fluids, edited by M. Baus, L.F. Rull and J.-P. Ryckaert, (Kluwer, Dordrecht, 1995).
171. E. Trizac and J.-P. Hansen, “Dynamics and Growth of Particles Undergoing Ballistic Coalescence”, J. Stat. Phys. 82, 1345 (1996).
172. J. Kohanoff and J.-P. Hansen, “Statistical Properties of the Dense Hydrogen Plasma: An Ab Intio Molecular Dynamics Investigation”, Phys. Rev. E 54, 768 (1996).
173. J.-P. Hansen and E. Smargiassi, “Density Functional Methods at Finite Temperature”, in Monte Carlo and Molecular Dynamics of Condensed Matter Systems, edited by K. Binder and G. Ciccotti (Società Italiana di Fisica, Bologna, 1996).
174. E. Trizac and J.-P. Hansen, “Free Energy of Electric Double-Layers Around Finite Particles”, J. Phys. Condens. Matter 8, 9191 (1996).
175. S. Warr and J.-P. Hansen, “Relaxation of Local Density Fluctuations in a Fluidized Granular Medium”, Europhys. Lett. 36, 589 (1996).
176. J.-P. Hansen and E. Trizac, “Electric Double-Layers Around Finite-Size Clay Particles”, Physica A 235, 257 (1997).
177. T. Biben and J.-P. Hansen, “Osmotic Depletion, Non-additivity and Phase Separation”, Physica A 235, 142 (1997).
178. E. Trizac and J.-P. Hansen, “Wigner-Seitz Model for Concentrated Clay Suspensions”, J. Phys. Condens. Matter 9, 2683 (1997).
179. M. Dijkstra, J.-P. Hansen and P.A. Madden, “A Statistical Model for the Structure and Gelation of Smectite Clay Suspensions”, Phys. Rev. E 55, 3044 (1997).
180. L. Bocquet and J.-P. Hansen, “Structure and Dynamics of Suspensions from First Principles?”, The Physics of Complex Systems, edited by F. Mallamace and H.E. Stanley, (SIF, Bologna, 1997).
181. L. Bocquet, J.-P. Hansen and J. Piasecki, “Friction Tensor for a Pair of Brownian Particles”, J. Stat. Phys. 89, 321 (1997).
182. K. Helal, T. Biben and J.-P. Hansen, “Local Fluctuations in a Fluidized Granular Medium”, Physica A 240, 361 (1997).
183. E. Trizac and J.-P. Hansen, “A Wigner-Seitz Model of Charged Lamellar Colloidal Dispersions”, Phys. Rev. E 56, 3137 (1997).
184. E. Trizac and J.-P. Hansen, “Polarisabilité d'une Double-Couche Chargée”, C.R. Acad. Sci. Paris 325, Série IIb, 15 (1997).
185. R. van Roij and J.-P. Hansen, “Van der Waals-Like Instability in Suspensions of Mutually Repelling Charged Colloids”, Phys. Rev. Lett. 79, 3082 (1997).
186. J.-P. Hansen and K. Helal, “Mouvements Granulaires dans une Poudre Fluidisée”, in Turbulence et Déterminisme, edited by M. Lesieur (Presses Universitaires de Grenoble, 1998).
187. H. Xu and J.-P. Hansen, “Density Functional Theory of Pair Correlations in Metallic Hydrogen”, Phys. Rev. E 57, 211 (1998).
188. T. Biben, J.-P. Hansen and Y. Rosenfeld, “Generic Density Functional for Electric Double-Layers in a Molecular Solvent”, Phys. Rev. E 57, R3727 (1998).
189. D. Goulding and J.-P. Hansen, “Effective Interaction between Charged Colloidal Particles Near a Surface”, Mol. Phys. 95 649 (1998).
190. R.J.F. Leote de Carvalho, E. Trizac and J.-P. Hansen, “Non-linear Poisson-Boltzmann Theory for Swollen Clays”, Europhys. Lett. 43, 369 (1998).
191. R. van Roij and J.-P. Hansen, “Phase Separation in Suspensions of Repelling Charged Colloids”, Progr. Colloid Polym. Sci. 110, 50 (1998).
192. K. Helal, T. Biben and J.-P. Hansen, “Capillary Confinement Shifts the Oblate to Prolate Shape Transition of Vesicles”, J. Phys. Cond. Matter 110, L51(1999).
193. D. Goulding and J.-P. Hansen, “Attraction Between Like-Charged Colloidal Particles Induced by a Surface: A Density-Functional Approach”, Europhys. Lett. 46, 407 (1999).
194. R. van Roij, M. Dijkstra and J.-P. Hansen, “Phase Diagram of Charge-Stabilized Colloidal Suspensions: van der Waals Instability Without Attractive Forces”, Phys. Rev. E 59, 2010 (1999).
195. D. Goulding and J.-P. Hansen, “Charge-Stabilized Colloids Confined to a Slit: A Case for Attraction Between Like Charges”, in New Approaches to Problems in Liquid State Theory, edited by C. Caccamo, J.-P. Hansen and G. Stell (Kluwer, Dordrecht, 1999).
196. A.A. Louis, R. Finken and J.-P. Hansen, “The Structure of Colloid-Polymer Mixtures”, Europhys. Lett. 46, 741 (1999).
197. H. Xu and J.-P. Hansen, “The Plasma-Insulator Transition in Spin-Polarized Hydrogen”, Phys. Rev. E 60 R9 (1999).
198. R.D. Wildman, J.M. Huntley and J.-P. Hansen, “Self-Diffusion of Grains in a Two Dimensional Vibro-fluidised Bed”, Phys. Rev. E. 60, 7066 (1999).
199. R. Allen, D. Goulding and J.-P. Hansen, “Sedimentation Equilibria of Colloidal Hard Rod Dispersions”, Phys. Chem. Commun. 7 (1999).
200. L. Bocquet and J.-P. Hansen, “Dynamics of Colloidal Systems: Beyond the Stochastic Approach”, in Dynamics: Models and Kinetic Methods for Non-equilibrium Many Body Systems, edited by J. Karkheck (Kluwer, Dordrecht, 2000).
201. S. Kutter, J.-P. Hansen, M. Sprik and E. Boek, “Structure and Phase Behaviour of a Model Clay Dispersion: A Molecular Dynamics Investigation”, J. Chem. Phys. 112, 311 (2000).
202. A.A. Louis, R. Finken and J.-P. Hansen, “Crystallization and Phase Separation in Non-additive Binary Hard-Sphere Mixtures”, Phys. Rev. E 61, R1028 (2000).
203. R.J.F. Leote de Carvalho, E. Trizac and J.-P. Hansen, “Non-linear Poisson-Boltzmann Theory of a Wigner-Seitz Model for Swollen Clays”, Phys. Rev. E. 61, 1634 (2000).
204. J.-P. Hansen, D. Goulding and R. van Roij, “Effective Interactions Between Charged Colloidal Particles: Repulsion, Attraction and Phase Separation”, J. de Physique IV (France) 10, PR5–27 (2000).
205. J.-P. Hansen and H. Löwen, “Effective Interactions Between Electric Double-layers”, Ann. Rev. Phys. Chem. 51, 209 (2000).
206. D.G. Rowan, J.-P. Hansen and E. Trizac, “Screened Electrostatic Interactions Between Clay Platelets”, Mol. Phys. 98, 1369 (2000).
207. Size Selectivity of Narrow Pores”, D. Goulding, J.-P. Hansen and S. Melchionna, Phys. Rev. Lett. 85, 1132 (2000).
208. R.D. Wildman, J.M. Huntley, J.-P. Hansen, D.J. Parker and D. Allen, “Single Particle Motion in Three-Dimensional Vibro-fluidised Granular Beds”, Phys. Rev. E 62, 3826 (2000).
209. S. Melchionna and J.-P. Hansen, “Triplet Depletion Forces from Density Functional Optimization”, Phys. Chem. Chem. Phys. 2, 3465 (2000).
210. A. Louis, P. Bolhuis, J.-P. Hansen and E.J. Meijer, “Can Polymer Coils be Modelled as ‘Soft’ Colloids?”, Phys. Rev. Lett. 85, 2522 (2000).
211. A.A. Louis, P.G. Bolhuis and J.-P. Hansen, “Mean Field Fluid Behaviour of the Gaussian Core Model”, Phys. Rev. E. 62, 7961 (2000).
212. L. Harnau, D. Costa and J.-P. Hansen, “A Solvable Interaction Site Model for Lamellar Colloids”, Europhys. Lett. 53, 729 (2001).
213. D. Goulding and J.-P. Hansen, “Effects of Size Polydispersity on Depletion Interactions”, Mol. Phys. 99, 865 (2001).
214. P.G. Bolhuis, A.A. Louis, J.-P. Hansen and E.J. Meijer, “Accurate Effective Pair Potentials for Polymer Solutions”, J. Chem. Phys. 114, 4296 (2001).
215. D. Goulding, S. Melchionna and J.-P. Hansen, “Entropic Selectivity of Microporous Materials”, Phys. Chem. Chem. Phys. 3, 1644 (2001).
216. R.D. Wildman, J.M. Huntley and J.-P. Hansen, “Experimental Studies of Vibro-fluidised Granular Beds”, in Granular Gases, edited by T. Pöschel and S. Luding (Springer, Berlin, 2001).
217. P.G. Bolhuis, A.A. Louis and J.-P. Hansen, “Many-Body Interactions and Correlations in Coarse-Grained Descriptions of Polymer Solutions”, Phys. Rev. E 64, 021801 (2001).
218. R.D. Wildman, J.M. Huntley, J.-P. Hansen and D.J. Parker, “Numerical Solution of the Smoluchovski Equation for a Vibro-fluidised Granular Bed”, Phys. Rev. E 64, 051304, (2001).
219. R.J. Allen, J.-P. Hansen and S. Melchionna, “Electrostatic Potential Inside Ionic Solutions Confined by Dielectrics: A Variational Approach”, Phys. Chem. Chem. Phys. 3, 4177 (2001).
220. T.O. White, G. Ciccotti and J.-P. Hansen, “Brownian Dynamics with Constraints”, Mol. Phys. 99, 2023 (2001).
221. R.D. Wildman, J.-P. Hansen and D.J. Parker, “Velocity Autocorrelation Functions in Three-Dimensional Vibro-fluidised Granular Beds”, Phys. Fluids 14, 232 (2001).
222. H. Xu and J.-P. Hansen, “Structural and Thermodynamic Properties of Spin-Polarized Fluid Hydrogen”, Phys. Plasmas 9, 21 (2002).
223. E. Allahyarov, H. Löwen, A.A. Louis and J.-P. Hansen, “Discrete Charge Patterns, Coulomb Correlations and Interactions in Protein Solutions”, Europhys. Lett. 57, 731 (2002).
224. D.G. Rowan and J.-P. Hansen, “Salt-Induced Ordering in Lamellar Colloids”, Langmuir 18, 2063 (2002).
225. V. Krakoviack, J.-P. Hansen and A.A. Louis, “Relating Monomer to Centre-of-Mass Distribution Functions in Polymer Solutions”, Europhys. Lett. 58, 53 (2002).
226. D.G. Rowan and J.-P. Hansen, “Binary Mixtures of Hard Platelets: Evidence for Depletion-Induced Phase Separation”, Phys. Chem. Chem. Phys. 4, 3390 (2002).
227. A.A. Louis, P.G. Bolhuis, R. Finken, V. Krakoviack and J.-P. Hansen, “Coarse-Graining Polymers as Soft Colloids”, Physica A 306, 251 (2002).
228. L. Harnau and J.-P. Hansen, “Colloid Aggregation Induced by Oppositely Charged Polyions”, J. Chem. Phys. 116, 9051 (2002).
229. J.-P. Hansen and H. Löwen, “Effective Interactions for Large-Scale Simulations of Complex Fluids”, in Molecular Simulations for the Next Decade, edited by M. Mareschal and P. Nielaba (Springer Verlag, Berlin, 2002).
230. A.A. Louis, P.G. Bolhuis, E.J. Meijer and J.-P. Hansen, “Density Profiles and Surface Tensions of Polymers Near Colloidal Surfaces”, J. Chem. Phys. 116, 10547 (2002).
231. A.A. Louis, P.G. Bolhuis, E.J. Meijer and J.-P. Hansen, “Polymer-Induced Depletion Potentials in Polymer-Colloid Mixtures”, J. Chem. Phys. 117, 1893 (2002).
232. P.G. Bolhuis, A.A. Louis and J.-P. Hansen, “Influence of Polymer Excluded Volume on the Phase Behaviour of Colloid-Polymer Mixtures”, Phys. Rev. Lett. 89, 128302 (2002).
233. T.O. White and J.-P. Hansen, “Increased Disjoining Pressure Between Charge-Modulated Surfaces”, J. Phys. Cond. Matter 14, 7649 (2002).
234. R.J. Allen, S. Melchionna and J.-P. Hansen, “Intermittent Permeation of Cylindrical Nanopores by Water”, Phys. Rev. Lett. 89, 175502 (2002).
235. R.J. Allen and J.-P. Hansen, “Density Functional Approach to the Effective Interaction Between Charges Within Dielectric Cavities”, J. Phys. Cond. Matter 14, 11981 (2002).
236. L. Harnau, D. Rowan and J.-P. Hansen, “Thermodynamics and Phase Behaviour of the Lamellar Zwanzig Model”, J. Chem. Phys. 117, 11359 (2002).
237. R. Finken, J.-P. Hansen and A.A. Louis, “Phase Separation of Penetrable Core Mixtures”, J. Stat. Phys. 110, 1015 (2003).
238. R.J. Allen, S. Melchionna and J.-P. Hansen, “Intermittent Filling of Narrow Channels by Water and Ions”, J. Phys. Condens. Matter 15, S297 (2003).
239. J.F. Dufrêche, T.O. White and J.-P. Hansen, “Charge-Stabilized Colloidal Suspensions: Counterion Condensation and Phase Diagrams”, Mol. Phys. 101, 1741 (2003).
240. R.J. Allen and J.-P. Hansen, “Electrostatic Interactions of Charges and Dipoles Near a Polarizable Membrane”, Mol. Phys. 101, 1575 (2003).
241. V. Krakoviack, J.-P. Hansen and A.A. Louis, “Influence of Solvent Quality on Effective Pair Potentials Between Polymers in Solution”, Phys. Rev. E 67, 041801 (2003).
242. A.A. Allahyarov, H. Löwen, J.-P. Hansen and A.A. Louis, “Non-monotonic Variation with Salt Concentration of the Second Virial Coefficient in Protein Solutions”, Phys. Rev. E 67, 051404 (2003).
243. R. Finken, V. Ballenegger and J.-P. Hansen, “Onsager Model for a Variable Dielectric Permittivity Near an Interface”, Mol. Phys. 101, 2559 (2003).
244. R.J. Allen, J.-P. Hansen and S. Melchionna, “A Molecular Dynamics Investigation of Water Permeation Through Nanopores”, J. Chem. Phys. 119, 3905 (2003).
245. N.A. Denesyuk and J.-P. Hansen, “A Mean-Field Theory of Wetting by Ionic Solutions”, Europhys. Lett. 63, 261 (2003).
246. V. Ballenegger and J.-P. Hansen, “Distance Dependent Permittivity Near an Interface”, Europhys. Lett. 63, 381 (2003).
247. J. Dzubiella and J.-P. Hansen, “Reduction of the Hydrophobic Attraction Between Charged Solutes in Water”, J. Chem. Phys. 119, 12049 (2003).
248. B. Rotenberg, J. Dzubiella, J.-P. Hansen and A.A. Louis, “Thermodynamic Perturbation Theory of the Phase Behaviour of Colloid/Interacting Polymer Mixtures”, Mol. Phys. 102, 1 (2004).
249. J. Dzubiella, R.J. Allen and J.-P. Hansen, “Electric Field-Controlled Water Permeation Coupled to Ion Transport Through a Nanopore”, J. Chem. Phys. 120, 5001 (2004).
250. V. Krakoviack, B. Rotenberg and J.-P. Hansen, “An Integral Equation Approach to Effective Interactions Between Polymers in Solution”, J. Phys. Chem. B 108, 6697 (2004).
251. R. Finken, J.-P. Hansen and A.A. Louis, “Phase Separation of a Multiple Occupancy Lattice Gas”, J. Phys. A 37, 577 (2004).
252. V. Ballenegger and J.-P. Hansen, “Structure and Dielectric Properties of Polar Fluids with Extended Dipoles”, Mol. Phys. 102, 599 (2004).
253. N. Hoffmann, C.N. Likos and J.-P. Hansen, “Linear Screening of the Electrostatic Potential Around Spherical Particles with Non-spherical Charge Patterns”, Mol. Phys. 102, 857 (2004).
254. M. Schmidt, M. Dijkstra and J.-P. Hansen, “Floating Liquid Phase in Sedimenting Colloid-Polymer Mixtures”, Phys. Rev. Lett. 93, 088303 (2004).
255. C.I. Addison, A.A. Louis and J.-P. Hansen, “Influence of Solvent Quality on Polymer Solutions: A Monte Carlo Study of Bulk and Interfacial Properties”, J. Chem. Phys. 121, 612 (2004).
256. J. Piasecki, R.J. Allen and J.-P. Hansen, “Kinetic Models of Ion Transport Through a Nanopore”, Phys. Rev. E. 70, 021105 (2004).
257. N.A. Denesyuk and J.-P. Hansen, “Wetting Transitions of Ionic Solutions”, J. Chem. Phys. 121, 3613 (2004).
258. M. Schmidt, M. Dijkstra and J.-P. Hansen, “Competition Between Sedimentation and Phase Coexistence of Colloidal Dispersions Under Gravity”, J. Phys. Condens. Matter 16, S4185 (2004).
259. J. Dzubiella and J.-P. Hansen, “Competition of Hydrophobic and Coulombic Interactions Between Nano-sized Solutes”, J. Chem. Phys. 121, 5514 (2004).
260. A. Moncho-Jordá, J. Dzubiella, J.-P. Hansen and A.A. Louis, “A Density-Functional Study of Interfacial Properties of Colloid-Polymer Mixtures”, J. Phys. Chem B. 109, 6640 (2005).
261. V. Ballenegger and J.-P. Hansen, “Dielectric Permittivity Profiles of Confined Polar Fluids”, J. Chem. Phys. 122, 114711 (2005).
262. C.I. Addison, J.-P. Hansen and A.A. Louis, “From Concentration Profiles to Polymer Osmotic Equations of State”, Chem. Phys. Chem. 6, 1760 (2005).
263. A. Pelissetto and J.-P. Hansen, “Corrections to Scaling and Crossover from Good-to-Solvent Regimes of Interacting Polymers”, J. Chem. Phys. 122, 134904 (2005).
264. D. Costa, J.-P. Hansen and L. Harnau, “Structure and Equation of State of Interaction Site Models for Disc-Shaped Lamellar Colloids”, Mol. Phys. 103, 1917 (2005).
265. J. Dzubiella and J.-P. Hansen, “Electric-Field Controlled Water and Ion Permeation of a Hydrophobic Nanopore”, J. Chem. Phys. 122, 234706 (2005).
266. C.I. Addison, J.-P. Hansen, V. Krakoviack and A.A. Louis, “Coarse-Graining Diblock Copolymer Solutions: A Macromolecular Version of the Widom-Rowlinson Model”, Mol. Phys. 103, 3045 (2005).
267. J.-P. Hansen, C.I. Addison and A.A. Louis, “Polymer Solutions: From Hard Monomers to Soft Polymers”, J. Phys. Condens. Matter 17, 53185 (2005).
268. C.I. Addison, P.A. Artola, J.-P. Hansen and A.A. Louis, “Phase Separation of a Model Binary Polymer Solution in an External Field”, J. Phys. Chem. B 110, 3661 (2006).
269. S. Succi, S. Melchionna and J.-P. Hansen, “Lattice-Fokker-Planck Equation”, Int. J. Mod. Phys. C 17, 459 (2006).
270. V. Ballenegger, R. Blaak and J.-P. Hansen, “Dipolar Fluctuations in the Bulk and at Interfaces”, in “Computer Simulations in Condensed Matter: From Materials to Chemical Biology” edited by K. Binder, G. Ciccoti and M. Ferrario, (Lecture Notes in Physics, Springer Verlag, Berlin 2006).
271. S. Melchionna, S. Succi and J.-P. Hansen, “Simulation of Single-File Ion Transport with the Lattice Fokker-Planck Equation”, Phys. Rev. E 73, 017701 (2006).
272. D. Moroni, B. Rotenberg, J.-P. Hansen, S. Succi and S. Melchionna, “Solving the Fokker-Planck Kinetic Equation on a Lattice”, Phys. Rev. E 73, 066707 (2006).
273. R. Blaak and J.-P. Hansen, “Dielectric Response of a Polar Fluid Trapped in a Spherical Nanocavity”, J. Chem. Phys. 124, 144714 (2006).
274. B. Rotenberg, J.F. Dufrêche, B. Bagchi, E. Giffaut, J.-P. Hansen and P. Turq, “Ion Dynamics in Compacted Clays: Derivation of a Two-State Diffusion-Reaction Scheme from the Lattice Fokker-Planck Equation”, J. Chem. Phys. 124, 154701 (2006).
275. C. Pierleoni, C.I. Addison, J.-P. Hansen and V. Krakoviack, “A Multi-scale Description of Diblock Copolymer Self-Assembly: From Monomers to Ordered Micelles”, Phys. Rev. Lett. 96, 128302 (2006).
276. D. Moroni, J.-P. Hansen, S. Melchionna and S. Succi, “On the Use of Lattice Fokker-Planck Models for Hydrodynamics”, Europhys. Lett. 75, 399 (2006).
277. A. Oleksy and J.-P. Hansen, “Towards a Microscopic Theory of Wetting by Ionic Solutions I. Surface Properties of the Semi-Primitive Model”, Mol. Phys. 104, 2871 (2006).
278. J.-P. Hansen and C.J. Pearson, “Athermal Models of Diblock Copolymer Self-Assembly”, Mol. Phys. 104, 3389 (2006).
279. A. Pelissetto and J.-P. Hansen, “An Effective Two-Component Description of Colloid-Polymer Phase Separation”, Macromolecules 39, 9571 (2006).
280. R. Blaak, M.A. Miller and J.-P. Hansen, “Reversible Gelation and Dynamical Arrest of Dipolar Colloids”, Europhys. Lett. 78, 26002 (2007).
281. P. Sillren and J.-P. Hansen, “Perturbation Theory for Systems with Strong Short-Ranged Interactions”, Mol. Phys. 105, 1803 (2007).
282. C. Pierleoni, B. Capone and J.-P. Hansen, “A Multi-blob Representation of Semi-dilute Polymer Solutions”, J. Chem. Phys. 127, 171102 (2007).
283. J. Alejandre and J.-P. Hansen, “Ions in Water: From Ion Clustering to Crystal Nucleation”, Phys. Rev. E. 76, 061505 (2007).
284. I. Coluzza and J.-P. Hansen, “The Transition from Highly to Fully Stretched Polymer Brushes in Good Solvent”, Phys. Rev. Lett. 100, 016104 (2008).
285. J.-P. Hansen, “Fundamentals of Liquids”, in Materials Issues for Generation IV Systems, Edited by V. Ghetta, D. Gorse, D. Mazieres and V. Pontikis (Springer Verlag, Dordrecht, 2008).
286. B. Capone, C. Pierleoni, J.-P. Hansen and V. Krakoviack, “Entropic Self-Assembly of Diblock Copolymers into Disordered and Ordered Micellar Phases”, J. Phys. Chem. B 113, 3629 (2009).
287. M.A. Miller, R. Blaak, C.N. Lumb and J.-P. Hansen, “Dynamical Arrest of Low Density Dipolar Colloidal Gels”, J. Chem. Phys. 130, 114507 (2009).
288. J. Alejandre, G.A. Chapela, F. Bresme and J.-P. Hansen, “The Short-Range Anion-H Interaction is the Driving Force for Nucleation of Ions in Water”, J. Chem. Phys. 130, 174505 (2009).
289. J.-J. Molina, C. Pierleoni, B. Capone, J.-P. Hansen and I. Saulo Santos de Oliveira, “Crystal Stability of Diblock Copolymer Micelles in Solution”, Mol. Phys. 107, 535 (2009).
290. V. Dahirel and J.-P. Hansen, “Ion-Mediated Interactions in Suspensions of Oppositely Charged Nanoparticles”, J. Chem. Phys. 131, 084902 (2009).
291. A. Oleksy and J.-P. Hansen, “Microscopic Density Functional Theory of Wetting and Drying of a Solid Substrate by an Explicit Solvent Model of Ionic Solutions”, Mol. Phys. 107, 2609 (2009).
292. M.A. Miller, R. Blaak and J.-P. Hansen, “Topological Characteristics of Model Gels”, J. Phys. Condens. Matter 22, 104109 (2010).
293. P. Sillrén and J.-P. Hansen, “On the Critical Non-additivity Driving Segregation of Asymmetric Binary Hard Sphere Fluids”, Mol. Phys. 108, 97 (2010).
294. A. Oleksy and J.-P. Hansen, “Wetting of a Solid Substrate by a ‘Civilized’ Model of Ionic Solutions”, J. Chem. Phys. 132, 204702 (2010).
295. B. Capone, J.-P. Hansen and I. Coluzza, “Competing Micellar and Cylindrical Phases in Semi-dilute Diblock Copolymer Solutions”, Soft Matter 6, 6075 (2010).
296. D. Coslovich, J.-P. Hansen and G. Kahl, “Clustering, Conductor-Insulator Transition and Phase Separation of an Ultrasoft Model of Electrolytes”, Soft Matter 7, 1690 (2011).
297. A. Oleksy and J.-P. Hansen, “Wetting and Drying Scenarios of Ionic Solutions”, Mol. Phys. 109, 1275 (2011).
298. B. Capone, J.-P. Hansen and I. Coluzza, “A Systematic Coarse-Graining Strategy for Semi-dilute Copolymer Solutions: From Monomers to Micelles”, J. Phys. Condens. Matter 23, 194102 (2011).
299. I. Coluzza, B. Capone and J.-P. Hansen, “Rescaling of Structural Length Scales for Soft Effective Segment Representations of Polymers in Good Solvent”, Soft Matter 7, 5255 (2011).
300. D. Coslovich, J.-P. Hansen and G. Kahl, “Ultrasoft Primitive Model of Polyionic Solutions: Structure, Aggregation and Dynamics”, J. Chem. Phys. 134, 244514 (2011).
301. J.-P. Hansen, D. Coslovich and G. Kahl, “Effective Interactions Between Oppositely Charged Polyelectrolytes in the Presence of Salt”, Mol. Phys. 109, 2953 (2011).
302. J.M. Bomont, J.-L. Bretonnet, D. Costa and J.-P. Hansen, “Thermodynamic Signatures of Cluster Formation in Fluids with Competing Interactions”, J. Chem. Phys. 137, 011101 (2012).
303. A. Nikoubashman, J.-P. Hansen and G. Kahl, “Mean-Field Theory of the Phase Diagram of Ultrasoft, Oppositely Charged Polyions in Solution”, J. Chem. Phys. 137, 094905 (2012).
304. J. Dzubiella and J.-P. Hansen, “Effects of Salt on the ‘Drying’ Transition and Hydrophobic Interaction Between Nano-sized Spherical Solutes”, Mol. Phys. 111, 3404 (2013).
305. A. Carof, V. Marry, M. Salanne, J.-P. Hansen, P. Turq and B. Rotenberg, “Coarse-Graining the Dynamics of Nano-confined Solutes: The Case of Ions in Clays”, Mol. Simul. 40, 237 (2014).
306. J.M. Bomont, G. Pastore and J.-P. Hansen, “Probing the Pair Structure of Supercooled Fluids by Integral Equations: Evidence for an Equilibrium Liquid-Ideal Glass Transition?”, Europhys. Lett. 105, 36003 (2014).
307. B. Rotenberg, O. Bernard and J.-P. Hansen, “Salt-Induced Effective Interaction and Phase Separation of an Ultrasoft Model of Polyelectrolytes”, Mol. Phys. 112, 1313 (2014).
308. J.M. Bomont, J.-P. Hansen and G. Pastore, “An Investigation of the Liquid-to-Glass Transition Using Integral Equations for the Pair Structure of Coupled Replicae”, J. Chem. Phys. 141, 174505 (2014).
309. J.M. Bomont, J.-P. Hansen and G. Pastore, “Comment on: An Investigation of the Liquid-to-Glass Transition Using Integral Equations for the Pair Structure of Coupled Replicae”, J. Chem. Phys. 142, 107105 (2015).
Pedagogical articles
1. J.-P. Hansen, “Les méthodes de Simulation sur ordinateur en Mécanique Statistique”, Images de la Physique 1975 (CNRS).
2. M. Baus and J.-P. Hansen, “La Matière Ionisée”, La Recherche 14, 325 (Mars 1983).
3. J.-P. Hansen and D. Levesque, “La Dynamique Moléculaire”, Images de la Physique 1985 (CNRS).
4. J.-P. Hansen and J. Clérouin, “Dynamique Moléculaire”, CCVR, Ecole Polytechnique (1987).
5. J.-P. Hansen, “Order in Complex Systems: The 1991 Nobel Prize in Physics”, Physics World 4, N°11, 61 (Novembre 1991).
6. J.-P. Hansen, “Clarifying the Kinetic Glass Transition”, Physics World 4, N°12, 32 (Décembre 1991).
7. D. Frenkel and J.-P. Hansen, “Understanding Liquids: a Computer Game?”, Physics World 9, N° 4, 35 (Avril 1996).
8. J.-P. Hansen, “Gabriel Lippmann, Physicien et Inventeur à la Charmière de Deux Epoques”, in Gabriel Lippmann, edited by J.P. Pier and J.A. Massard, (Institut Grand Ducal de Luxembourg, 1997).
9. J.-P. Hansen and P.N. Pusey, “Phase Behaviour of Colloidal Systems”, Europhysics News 30, 81 (1999).