Materials Science Publications of James F. Lutsko
Generated Mon Jan 11 09:30:39 2016
3247 citations, hindex: 31 as of Jan. 9, 2016


[18] 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 ]
[17] 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 ]
[16] 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 ]
[15] 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 ]
[14] 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 ]
[13] 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 ]
[12] J. F. Lutsko. Generalized expressions for the calculation of elastic constants by computer simulation. J. App. Phys., 65:2991, 1989. [ bib ]
[11] D. Wolf and J. F. Lutsko. Origin of the supermodulus effect in metallic superlattices. J. App. Phys., 66:1961, 1989. [ bib ]
[10] 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 ]
[9] 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 ]
[8] 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 ]
[7] 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 ]
[6] D. Wolf and J. F. Lutsko. Structurally induced supermodulus effect in superlattices. Phys. Rev. Lett., 60:1170-1173, 1988. [ bib | .pdf | http | Abstract ]
[5] 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 ]
[4] J. F. Lutsko, D. Wolf, and S. Yip. Molecular dynamics calculation of free energy. J. Chem. Phys., 88:6525, 1988. [ bib | http | Abstract ]
[3] J. F. Lutsko. Stress and elastic constants in anisotropic solids: Molecular dynamics techniques. J. App. Phys., 64:1152, 1988. [ bib ]
[2] 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 ]
[1] 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 ]

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