All Publications of James F. Lutsko
Generated Wed Nov 1 11:08:28 2017
3795 citations, hindex: 32 as of Nov. 1, 2017


[103] Jean Pierre Boon and James F. Lutsko. Temporal diffusion: From microscopic dynamics to generalised Fokker-Planck and fractional equations. J. Statistical Physics, 166:1441, 2017. [ bib | .pdf | http | Abstract ]
[102] Julien Lam and James F. Lutsko. Solute particle near a nanopore: influence of size and surface properties on the solvent-mediated forces. Nanoscale, 000:000, 2017. [ bib | DOI | .pdf | http | Abstract ]
[101] James F. Lutsko, Alexander E. S. Van Driessche, Miguel A. Durán-Olivencia, Dominique Maes, and Mike Sleutel. Step Crowding Effects Dampen the Stochasticity of Crystal Growth Kinetics. Phys. Rev. Lett., 116:015501, 2016. [ bib | .pdf | http | Abstract ]
[100] James F. Lutsko and Grégoire Nicolis. Mechanism for the stabilization of protein clusters above the solubility curve. Soft Matter, 12:93, 2016. [ bib | .pdf | http | Abstract ]
[99] James F. Lutsko and Miguel A. Durán-Olivencia. A Two-parameter Extension of Classical Nucleation Theory. J. Phys. Cond. Matt., 27:235101, 2015. [ bib | .pdf | http | Abstract ]
[98] Miguel A. Durán-Olivencia and James F. Lutsko. Mesoscopic nucleation theory for confined systems: A one-parameter model. Phys. Rev. E, 91:022402, 2015. [ bib | .pdf | http | Abstract ]
[97] Mike Sleutel, James F. Lutsko, Dominique Maes, and Alexander E. S. Van Driessche. Mesoscopic impurities expose a nucleation-limited regime of crystal growth. Phys. Rev. Lett., 114:245501, 2015. [ bib | .pdf | http | Abstract ]
[96] Miguel A. Durán-Olivencia and James F. Lutsko. Unification of classical nucleation theories via unified Itô-Stratonovich stochastic equation. Phys. Rev. E, 92:032407, 2015. [ bib | .pdf | http | Abstract ]
[95] Jean Pierre Boon and James F. Lutsko. Molecular theory of anomalous diffusion - Application to Fluorescence Correlation Spectroscopy. J. Stat. Phys., 160:622--635, 2015. [ bib | .pdf | http | Abstract ]
[94] James F. Lutsko, Nélido González-Segredo, Miguel A. Durán-Olivencia, Dominique Maes, Alexander E.S. Van Driessche, and Mike Sleutel. Crystal Growth Cessation Revisited -- the physical basis of step pinning. Crystal Growth and Design, 14:6129--6134, 2014. [ bib | .pdf | http | Abstract ]
[93] Mike Sleutel, Jim Lutsko, Alexander E. S. Van Driessche, Miguel A. Durán-Olivencia, and Dominique Maes. Observing classical nucleation theory at work by monitoring phase transitions with molecular precision. Nature Communications, 5:5598, 2014. [ bib | .pdf | .html | Abstract ]
[92] James F. Lutsko and Jean Pierre Boon. Comment on “Possible divergences in Tsallis’ thermostatistics” by Plastino A. and Rocca M. C. EuroPhys. Lett., 107:10003, 2014. [ bib | .pdf | http | Abstract ]
[91] James F. Lutsko and Miguel A. Durán-Olivencia. Classical nucleation theory from a dynamical approach to nucleation. J. Chem. Phys., 138:244908, 2013. [ bib | DOI | .pdf | http | Abstract ]
[90] James F. Lutsko. Direct correlation function from the consistent fundamental-measure free energies for hard-sphere mixtures. Phys. Rev. E, 87:014103, 2013. [ bib | DOI | .pdf | http | Abstract ]
[89] James F. Lutsko and Jean Pierre Boon. Microscopic theory of anomalous diffusion based on particle interactions. Phys. Rev. E, 88:022108, 2013. [ bib | DOI | .pdf | http | Abstract ]
[88] Jean Pierre Boon, James F. Lutsko, and Christopher Lutsko. Microscopic approach to nonlinear reaction-diffusion: The case of morphogen gradient formation. Phys. Rev. E, 85:021126, 2012. [ bib | DOI | .pdf | http | Abstract ]
[87] James F. Lutsko. A dynamical theory of nucleation for colloids and macromolecules. J. Chem. Phys., 136:034509, 2012. [ bib | DOI | .pdf | http | Abstract ]
[86] James F. Lutsko. Nucleation of colloids and macromolecules: Does the nucleation pathway matter? J. Chem. Phys., 136:134402, 2012. [ bib | DOI | .pdf | http | Abstract ]
[85] James F. Lutsko. On the role of metastable intermediate states in the homogeneous nucleation of solids from solution. Adv. Chem. Phys., 151:137--172, 2012. [ bib | .pdf | http | Abstract ]
[84] James F. Lutsko. Nucleation of colloids and macromolecules in a finite volume. J. Chem. Phys., 137:154903, 2012. [ bib | DOI | http | Abstract ]
[83] James F. Lutsko. A dynamical theory of homogeneous nucleation for colloids and macromolecules. J. Chem. Phys., 135:161101, 2011. [ bib | DOI | .pdf | http | Abstract ]
[82] James F. Lutsko. Density functional theory of inhomogeneous liquids. IV. Squared-gradient approximation and classical nucleation theory. J. Chem. Phys., 134:164501, 2011. [ bib | DOI | .pdf | http | Abstract ]
[81] James F. Lutsko and Jean Pierre Boon. Questioning the validity of non-extensive thermodynamics for classical Hamiltonian systems. EuroPhysics Letters, 95:20006, 2011. [ bib | DOI | .pdf | .pdf | Abstract ]
[80] Jean Pierre Boon and James F. Lutsko. Nonextensive formalism and continuous Hamiltonian systems. Physics Letters A, 375:329--334, 2011. [ bib | DOI | .pdf | http | Abstract ]
[79] James F Lutsko, Julien Laidet, and Patrick Grosfils. Phase behavior of a confined nanodroplet in the grand-canonical ensemble: the reverse liquid–vapor transition. J. Phys.: Cond. Matt., 22(3):035101, 2010. [ bib | .pdf | http | Abstract ]
[78] Patrick Grosfils and James F. Lutsko. Low-Density/High-Density Liquid Phase Transition for Model Globular Proteins. Langmuir, 26(11):8510--8516, 2010. [ bib | .pdf | http ]
[77] James F. Lutsko, Vasileios Basios, Gregoire Nicolis, John J. Kozak, Mike Sleutel, and Dominique Maes. Kinetic rougheninglike transition with finite nucleation barrier. J. Chem. Phys., 132(3):035102, 2010. [ bib | DOI | .pdf | http | Abstract ]
[76] James F. Lutsko. Recent Developments in Classical Density Functional Theory. Adv. Chem. Phys., 144:1, 2010. [ bib | Abstract ]
[75] James F. Lutsko, Vasileios Basios, Grégoire Nicolis, Tom P. Caremans, Alexander Aerts, Johan A. Martens, Christine E. A. Kirschhock, and Titus S. van Erp. Kinetics of intermediate-mediated self-assembly in nanosized materials: A generic model. J. Chem. Phys., 132(16):164701, 2010. [ bib | DOI | .pdf | http | Abstract ]
[74] Patrick Grosfils and James F. Lutsko. Dependence of the liquid-vapor surface tension on the range of interaction: A test of the law of corresponding states. J. Chem. Phys., 130(5):054703+, 2009. [ bib | .pdf | http | Abstract ]
[73] J. F. Lutsko, J. P. Boon, and P. Grosfils. Is the Tsallis entropy stable? EPL (Europhysics Letters), 86(4):40005+, 2009. [ bib | DOI | .pdf | http | Abstract ]
[72] J. F. Lutsko. Reply to the Comment by M. Iwamatsu. EPL (Europhysics Letters), 86(2):26002+, 2009. [ bib | DOI | .pdf | http ]
[71] Wm. G. Hoover, Carol G. Hoover, and James F. Lutsko. Microscopic and macroscopic stress with gravitational and rotational forces. Phys. Rev. E, 79:036709, Mar 2009. [ bib | DOI | http | Abstract ]
[70] James F. Lutsko and Jean P. Boon. Generalized diffusion: A microscopic approach. Phys. Rev. E, 77(5), 2008. [ bib | DOI | .pdf | http | Abstract ]
[69] James F. Lutsko. Density functional theory of inhomogeneous liquids. III. Liquid-vapor nucleation. J. Chem. Phys., 129(124):244501+, 2008. [ bib | .pdf | http | Abstract ]
[68] James F. Lutsko. Density functional theory of inhomogeneous liquids. II. A fundamental measure approach. J. Chem. Phys., 128(18), 2008. [ bib | .pdf | http | Abstract ]
[67] J. F. Lutsko. Theoretical description of the nucleation of vapor bubbles in a superheated fluid. EPL (Europhysics Letters), 83(4):46007+, 2008. [ bib | DOI | .pdf | http | Abstract ]
[66] James F. Lutsko. Density functional theory of inhomogeneous liquids. I. The liquid-vapor interface in Lennard-Jones fluids. J. Chem. Phys., 127:054701, 2007. [ bib | .pdf | Abstract ]
[65] Jean Pierre Boon and James F. Lutsko. From Einstein to generalized diffusion. AIP Conference Proceedings, 965(1):157--164, 2007. [ bib | DOI | .pdf | http | Abstract ]
[64] J. P. Boon and J. F. Lutsko. Nonlinear diffusion from Einstein's master equation. EPL (Europhysics Letters), 80(6):60006 (4pp), 2007. [ bib | .pdf | http | Abstract ]
[63] James F. Lutsko. Chapman-Enskog expansion about nonequilibrium states with application to the sheared granular fluid. Phys. Rev. E, 73:021302, 2006. [ bib | arXiv | eprint | .pdf | http | Abstract ]
[62] James F. Lutsko and Grégoire Nicolis. Theoretical Evidence for a Dense Fluid Precursor to Crystallization. Phys. Rev. Lett., 96:046102, 2006. Also appeared in February 15, 2006 issue of Virtual Journal of Biological Physics Research. [ bib | arXiv | eprint | .pdf | http | Abstract ]
[61] James F. Lutsko. First principles derivation of Ginzburg–Landau free energy models for crystalline systems. Physica A, 366:229--242, 2006. [ bib | .pdf | Abstract ]
[60] Jean Pierre Boon and James F. Lutsko. Generalized diffusion equation. Physica A, 368:55--62, 2006. [ bib | .pdf | Abstract ]
[59] James F. Lutsko. Hydrodynamics of an endothermic gas with application to bubble cavitation. J. Chem. Phys., 125:164319, 2006. [ bib | .pdf | Abstract ]
[58] James F. Lutsko. Properties of non-fcc hard-sphere solids predicted by density functional theory. Phys. Rev. E, 74:021121, 2006. [ bib | .pdf | Abstract ]
[57] James F. Lutsko. Ginzburg-Landau theory of the liquid-solid interface and nucleation for hard spheres. Phys. Rev. E, 74:021603, 2006. [ bib | .pdf | Abstract ]
[56] James F. Lutsko. Transport properties of dense dissipative hard-sphere fluids for arbitrary energy loss models. Phys. Rev. E, 72:021306, 2005. [ bib | eprint | .pdf | http | Abstract ]
[55] James F. Lutsko and Gregoire Nicolis. The effect of the range of interaction on the phase diagram of a globular protein. J. Chem. Phys., 122:244907, 2005. [ bib | eprint | .pdf | http | Abstract ]
[54] K. Yoshimoto, G. J. Papakonstantopoulos, J. F. Lutsko, and J. J. de Pablo. Statistical calculation of elastic moduli for atomistic models. Phys. Rev. B, 71:184108, 2005. [ bib | .pdf ]
[53] J. F. Lutsko and J. P. Boon. Non-extensive diffusion as nonlinear response. Euro. Phys. Lett., 71(6):906--911, 2005. [ bib | eprint | .pdf | .html | Abstract ]
[52] James F. Lutsko. Kinetic theory and hydrodynamics of dense, reacting fluids far from equilibrium. J. Chem. Phys., 120:6325, 2004. [ bib | eprint | .pdf | http | Abstract ]
[51] James F. Lutsko. Rheology of dense polydisperse granular fluids under shear. Phys. Rev. E, 70:061101, 2004. [ bib | .pdf | http | Abstract ]
[50] P. Gaspard and J. Lutsko. Imploding shock wave in a fluid of hard-core particles. Phys. Rev. E, 70:026306, 2004. [ bib | .pdf | Abstract ]
[49] Jean Pierre Boon, Patrick Grosfils, and James F. Lutsko. Propagation-Dispersion Equation. J. Stat. Phys., 113(3-4):527 -- 548, 2003. [ bib | eprint | .pdf | http | Abstract ]
[48] J. P. Boon, P. Grosfils, and J. F. Lutsko. Temporal diffusion. Euro. Phys. Lett., 63:186--192, 2003. [ bib | eprint | .html | Abstract ]
[47] J. W. Dufty, J. J. Brey, and J. Lutsko. Diffusion in a granular fluid. I. Theory. Phys. Rev. E, 65:051303, 2002. [ bib | .pdf | http | Abstract ]
[46] J. Lutsko, J. J. Brey, and J. W. Dufty. Diffusion in a granular fluid. II. Simulation. Phys. Rev. E, 65:051304, 2002. [ bib | .pdf | http | Abstract ]
[45] J. F. Lutsko and J. W. Dufty. Long-ranged correlations in sheared fluids. Phys. Rev. E, 66:041206, 2002. [ bib | .pdf | http | Abstract ]
[44] J. F. Lutsko. Atomic-scale structure of hard-core fluids under shear flow. Phys. Rev. E, 66:051109, 2002. [ bib ]
[43] James F. Lutsko. Velocity Correlations and the Structure of Nonequilibrium Hard-Core Fluids. Phys. Rev. Lett., 86:3344, 2001. [ bib | .pdf | http | Abstract ]
[42] James F. Lutsko. Model for the atomic-scale structure of the homogeneous cooling state of granular fluids. Phys. Rev. E, 63:061211, 2001. [ bib | .pdf | www: | Abstract ]
[41] Victor Medina-Chico, Alberto Suárez, and James F. Lutsko. Backpropagation in Decision Trees for Regression. In Proceedings of the 12th European Conference on Machine Learning, volume 2167 of Lecture Notes In Computer Science, pages 348--359, 2001. [ bib ]
[40] A. Suarez and J.F. Lutsko. Globally optimal fuzzy decision trees for classification and regression. IEEE Transactions on Pattern Analysis and Machine Intelligence, 21:1280, 1999. [ bib ]
[39] James F. Lutsko. Viscoelastic effects from the Enskog equation for uniform shear flow. Phys. Rev. E, 58:434, 1998. [ bib | .pdf | http | Abstract ]
[38] J. M. Montanero, A. Santos, M. Lee, J. W. Dufty, and J. F. Lutsko. Stability of uniform shear flow. Phys. Rev. E, 57:546--556, 1998. [ bib | .pdf | http | Abstract ]
[37] James F. Lutsko. Approximate Solution of the Enskog Equation Far from Equilibrium. Phys. Rev. Lett., 78:243, 1997. [ bib | .pdf | http | Abstract ]
[36] James F. Lutsko. Molecular Chaos, Pair Correlations, and Shear-Induced Ordering of Hard Spheres. Phys. Rev. Lett., 77:2225, 1996. [ bib | .pdf | http | Abstract ]
[35] M. Lee, J. W. Dufty, J. M. Montanero, A. Santos, and J. F. Lutsko. Long Wavelength Instability for Uniform Shear Flow. Phys. Rev. Lett., 76:2702--2705, 1996. [ bib | .pdf | http | Abstract ]
[34] James F. Lutsko and Bart Kuijpers. Simulated annealing and the determination of near-optimal decision trees. In P. Cheeseman and R.W.Oldford, editors, Selecting Models from Data. Springer-Verlag, 1994. [ bib ]
[33] Kris Dockx and James F. Lutsko. SA/GA: Survival of the fittest in Alaska. In P. Cheeseman and R.W.Oldford, editors, Selecting Models from Data. Springer-Verlag, 1994. [ bib ]
[32] P. Van Sina, J. F. Lutsko, and W. De Clercq. A case-based expert system for the design of control schemes in chemical plants. In F. Moser et al., editor, ESCAPE-3, pages 97--101. Pergamon Press, 1993. [ bib ]
[31] C. F. Tejero, J. F. Lutsko, J. L. Colot, and M. Baus. Thermodynamic properties of the fluid, fcc, and bcc phases of monodisperse charge-stabilized colloidal suspensions within the Yukawa model. Phys. Rev. A, 46:3373--3379, 1992. [ bib | .pdf | http | Abstract ]
[30] E. Aurell, U. Frisch, J. Lutsko, and M. Vergassola. On the multifractal properties of the energy dissipation derived from turbulence data. J. Fluid Mech., 238:467, 1992. [ bib ]
[29] J. F. Lutsko. Reformulation of nonperturbative density-functional theories of classical nonuniform systems. Phys. Rev. A, 43:4124--4130, 1991. [ bib | .pdf | http | Abstract ]
[28] Marc Baus and James F. Lutsko. Statistical mechanical theories of freezing: Where do we stand? Physica A, 176(1):28--36, 1991. [ bib ]
[27] J F Lutsko and M Baus. The freezing of soft spheres from a simple hard-sphere perturbation theory. J. Phys.: Condens. Matter, 3(33):6547--6552, 1991. [ bib | Abstract ]
[26] J.F. Lutsko, J-P. Boon, and J.A. Somers. Lattice Gas Simulations of Viscous Fingering in a Porous Medium. In Numerical methods for the Simulation of Multiphase and Complex Flows. Springer-Verlag, 1991. [ bib ]
[25] J. F. Lutsko and M. Baus. Nonperturbative density-functional theories of classical nonuniform systems. Phys. Rev. E, 41:6647--6661, 1990. [ bib | .pdf | http | Abstract ]
[24] J. F. Lutsko and M. Baus. Can the thermodynamic properties of a solid be mapped onto those of a liquid? Phys. Rev. Lett., 64:761--763, 1990. [ bib | .pdf | http | Abstract ]
[23] M. D. Kluge, D. Wolf, J. F. Lutsko, and S. R. Phillpot. Formalism for the calculation of local elastic constants at grain boundaries by means of atomistic simulation. J. App. Phys., 67:2370, 1990. [ bib ]
[22] S. R. Phillpot, D. Wolf, and J. F. Lutsko. Anomalous elastic behavior in superlattices of twist grain boundaries in silicon. J. App. Phys., 67:6747, 1990. [ bib ]
[21] D. Wolf, P. R. Okamoto, S. Yip, J. F. Lutsko, and M. Kluge. Thermodynamic parallels between solid-state amorphization and melting. Journal of Materials Research, 5(2):286--301, 1990. [ bib ]
[20] James F. Lutsko, J. W. Dufty, and S. P. Das. Fluctuations and dissipation in a fluid under shear: Linear dynamics. Phys. Rev. A, 39:1311, 1989. [ bib | .pdf | http | Abstract ]
[19] S. R. Phillpot, J. F. Lutsko, D. Wolf, and S. Yip. Molecular-dynamics study of lattice-defect-nucleated melting in silicon. Phys. Rev. B, 40:2831--2840, 1989. [ bib | .pdf | http | Abstract ]
[18] J. F. Lutsko, D. Wolf, S. R. Phillpot, and S. Yip. Molecular-dynamics study of lattice-defect-nucleated melting in metals using an embedded-atom-method potential. Phys. Rev. B, 40:2841--2855, 1989. [ bib | .pdf | http | Abstract ]
[17] J. F. Lutsko. Generalized expressions for the calculation of elastic constants by computer simulation. J. App. Phys., 65:2991, 1989. [ bib ]
[16] D. Wolf and J. F. Lutsko. Origin of the supermodulus effect in metallic superlattices. J. App. Phys., 66:1961, 1989. [ bib ]
[15] D. Wolf and J. F. Lutsko. On the geometrical relationship between tilt and twist grain-boundaries. Zeitschrift fur Kristallographie, 189(3-4):239--262, 1989. [ bib ]
[14] D. Wolf and J. F. Lutsko. Structurally-induced elastic anomalies in a superlattice of (001) twist grain-booundaries. Journal of Materials Research, 4(6):1427--1443, 1989. [ bib ]
[13] S. R. Phillpot, J. F. Lutsko, and D. Wolf. Nucleation and kinetics of thermodynamic melting - a molecular-dynamics study of grain-boundary induced melting in silicon. Solid State Communications, 70(3):265--268, 1989. [ bib ]
[12] J. F. Lutsko, D. Wold, S. R. Phillpot, and S. Yip. On the relevance of extrinsic defects to melting - a molecular-dynamics study using an embedded atom potential. Scripta Metallurgica, 23(3):333--338, 1989. [ bib ]
[11] D. Wolf and J. F. Lutsko. Structurally induced supermodulus effect in superlattices. Phys. Rev. Lett., 60:1170--1173, 1988. [ bib | .pdf | http | Abstract ]
[10] J. F. Lutsko, D. Wolf, S. Yip, S. R. Phillpot, and T. Nguyen. Molecular-dynamics method for the simulation of bulk-solid interfaces at high temperatures. Phys. Rev. B, 38:11572--11581, 1988. [ bib | .pdf | http | Abstract ]
[9] J. F. Lutsko, D. Wolf, and S. Yip. Molecular dynamics calculation of free energy. J. Chem. Phys., 88:6525, 1988. [ bib | http | Abstract ]
[8] J. F. Lutsko. Stress and elastic constants in anisotropic solids: Molecular dynamics techniques. J. App. Phys., 64:1152, 1988. [ bib ]
[7] J. F. Lutsko, D. Wolf, and S. Yip. Free energy calculation via MD - Methodology and application to bicrystals. J.ournal de Physique, 49(C5):375--379, 1988. [ bib ]
[6] J. F. Lutsko and D. Wolf. A molecular-dynamics study of grain-boundary behavior at elevated temperatures using an embedded atom potential. Scripta Metallurgica, 22(12):1923--1928, DEC 1988. [ bib ]
[5] J. F. Lutsko and J. W. Dufty. Possible Instability for Shear-Induced Order-Disorder Transition. Phys. Rev. Lett., 57:2775--2778, 1986. [ bib | .pdf | http | Abstract ]
[4] James W. Dufty and James F. Lutsko. Non-linear Transport and Mode Coupling in Fluids Under Shear. In J. Casas-Vazquez, editor, Recent Developments in Nonequilibrium Statistical, pages 47--84, Berlin, 1986. Springer-Verlag. [ bib ]
[3] J. Lutsko and J. W. Dufty. Hydrodynamic fluctuations at large shear rate. Phys. Rev. A, 32:3040, 1985. [ bib | .pdf | http | Abstract ]
[2] J. Lutsko and J. W. Dufty. Mode-coupling contributions to the nonlinear shear viscosity. Phys. Rev. A, 32:1229--1231, 1985. [ bib | .pdf | http | Abstract ]
[1] James W. Dufty and James F. Lutsko. Structure and Stability of Hydrodynamic Modes for Shear Flow. Kinam, 6:169--181, 1985. [ bib ]

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