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@book{Hoffman:2001sf, |
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Address = {New York }, |
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@inbook{Hoffman:2001sf, |
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Address = {New York}, |
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Annote = {LDR 01107cam 2200253 a 4500 |
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001 12358442 |
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005 20070910074423.0 |
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Author = {Hoffman, Joe D.}, |
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Call-Number = {QA297}, |
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Date-Added = {2010-07-15 16:32:02 -0400}, |
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Date-Modified = {2010-07-15 16:32:52 -0400}, |
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Date-Modified = {2010-07-19 16:22:16 -0400}, |
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Dewey-Call-Number = {519.4}, |
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Edition = {2nd ed., rev. and expanded}, |
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Genre = {Numerical analysis}, |
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Isbn = {0824704436 (acid-free paper)}, |
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Library-Id = {2001028633}, |
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Publisher = {Marcel Dekker}, |
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Title = {Numerical methods for engineers and scientists }, |
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Title = {Numerical methods for engineers and scientists}, |
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Url = {http://www.loc.gov/catdir/enhancements/fy0743/2001028633-d.html}, |
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Year = {2001}, |
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Bdsk-Url-1 = {http://www.loc.gov/catdir/enhancements/fy0743/2001028633-d.html}} |
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@article{Vardeman:2008fk, |
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Abstract = {Using molecular dynamics simulations, we have simulated the rapid cooling experienced by bimetallic nanoparticles following laser excitation at the plasmon resonance and find evidence that glassy beads, specifically Ag-Cu bimetallic particles at the eutectic composition (60\% Ag, 40\% Cu), can be formed during these experiments. The bimetallic nanoparticles are embedded in an implicit solvent with a viscosity tuned to yield cooling curves that match the experimental cooling behavior as closely as possible. Because the nanoparticles have a large surface-to-volume ratio, experimentally realistic cooling rates are accessible via relatively short simulations. The presence of glassy structural features was verified using bond orientational order parameters that are sensitive to the formation of local icosahedral ordering in condensed phases. As the particles cool from the liquid droplet state into glassy beads, a silver-rich monolayer develops on the outer surface and local icosahedra can develop around the silver atoms in this monolayer. However, we observe a strong preference for the local icosahedral ordering around the copper atoms in the particles. As the particles cool, these local icosahedral structures grow to include a larger fraction of the atoms in the nanoparticle, eventually leading to a glassy nanosphere.}, |
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Address = {1155 16TH ST, NW, WASHINGTON, DC 20036 USA}, |
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Author = {Vardeman, Charles F., II and Gezelter, J. Daniel}, |
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Author = {{Vardeman II}, Charles F. and Gezelter, J. Daniel}, |
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Date-Added = {2010-07-13 11:48:22 -0400}, |
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Date-Modified = {2010-07-13 11:48:22 -0400}, |
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Date-Modified = {2010-07-19 16:20:01 -0400}, |
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Doi = {DOI 10.1021/jp710063g}, |
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Isi = {000253512400021}, |
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Isi-Recid = {160903603}, |
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@misc{openmd, |
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Author = {J. Daniel Gezelter and Shenyu Kuang and James Marr and Kelsey Stocker and Chunlei Li and Charles F. Vardeman and Teng Lin and Christopher J. Fennell and Xiuquan Sun and Kyle Daily and Yang Zheng and Matthew A. Meineke}, |
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Date-Added = {2010-07-13 11:16:00 -0400}, |
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Date-Modified = {2010-07-13 11:19:48 -0400}, |
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Howpublished = {Available at http://openmd.net}, |
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Title = {OpenMD}} |
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Date-Modified = {2010-07-19 16:27:45 -0400}, |
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Howpublished = {Available at {\tt http://openmd.net}}, |
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Title = {{OpenMD}}} |
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@book{AshcroftMermin, |
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Author = {N.~David Mermin and Neil W. Ashcroft}, |
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Author = {Tenney, Craig M. and Maginn, Edward J.}, |
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Author-Email = {ed@nd.edu}, |
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Date-Added = {2010-03-09 13:08:41 -0500}, |
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Date-Modified = {2010-04-14 12:51:13 -0400}, |
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Date-Modified = {2010-07-19 16:21:35 -0400}, |
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Doc-Delivery-Number = {542DQ}, |
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Doi = {10.1063/1.3276454}, |
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Funding-Acknowledgement = {U.S. Department of Energy {[}DE-FG36-08G088020]}, |
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Month = {JAN 7}, |
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Number = {1}, |
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Number-Of-Cited-References = {20}, |
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Pages = {014103}, |
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Publisher = {AMER INST PHYSICS}, |
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Subject-Category = {Physics, Atomic, Molecular \& Chemical}, |
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Times-Cited = {0}, |
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Address = {CIRCULATION \& FULFILLMENT DIV, 2 HUNTINGTON QUADRANGLE, STE 1 N O 1, MELVILLE, NY 11747-4501 USA}, |
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Author = {Viscardy, S. and Servantie, J. and Gaspard, P.}, |
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Date-Added = {2009-09-21 16:37:20 -0400}, |
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Date-Modified = {2009-09-21 16:37:20 -0400}, |
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Date-Modified = {2010-07-19 16:18:44 -0400}, |
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Doi = {DOI 10.1063/1.2724821}, |
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Isi = {000246453900035}, |
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Isi-Recid = {156192451}, |
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Journal = {J. Chem. Phys.}, |
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Month = may, |
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Number = {18}, |
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Pages = {184513}, |
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Publisher = {AMER INST PHYSICS}, |
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Times-Cited = {3}, |
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Title = {Transport and Helfand moments in the Lennard-Jones fluid. II. Thermal conductivity}, |
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Address = {CIRCULATION \& FULFILLMENT DIV, 2 HUNTINGTON QUADRANGLE, STE 1 N O 1, MELVILLE, NY 11747-4501 USA}, |
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Author = {Viscardy, S. and Servantie, J. and Gaspard, P.}, |
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Date-Added = {2009-09-21 16:37:19 -0400}, |
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Date-Modified = {2009-09-21 16:37:19 -0400}, |
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Date-Modified = {2010-07-19 16:19:03 -0400}, |
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Doi = {DOI 10.1063/1.2724820}, |
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Isi = {000246453900034}, |
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Isi-Recid = {156192449}, |
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Journal = {J. Chem. Phys.}, |
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Month = may, |
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Number = {18}, |
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Pages = {184512}, |
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Publisher = {AMER INST PHYSICS}, |
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Times-Cited = {1}, |
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Title = {Transport and Helfand moments in the Lennard-Jones fluid. I. Shear viscosity}, |
