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W2012912162 abstract "A wide spectrum of potential energy barriers exists for binary Lennard-Jones systems. Here we examine the barriers and cage-breaking rearrangements that are pertinent to long-term diffusion. Single-step cage-breaking processes, which follow high-barrier routes, are identified, and different methods and criteria for defining a cage-breaking process are considered. We examine the extent to which a description of cage-breaking within the energy landscape is a description of long-term diffusion. This description includes the identification of cage-breaks that are reversed, and those that are productive towards long-term diffusion. At low temperatures, diffusion is adequately described by productive cage-breaks, or by considering all cage-breaks and accounting for the effect of reversals. To estimate the diffusion constant we require only the mean square displacement of a cage-break, the average waiting time for a cage-break, and a measure of the number of reversed cage-breaks. Cage-breaks can be visualized within the potential energy landscape using disconnectivity graphs, and we compare the use of productive cage-breaks with previous definitions of “megabasins” or “metabasins.”" @default.
W2012912162 created "2016-06-24" @default.
W2012912162 creator A5022301289 @default.
W2012912162 creator A5052667999 @default.
W2012912162 date "2008-10-24" @default.
W2012912162 modified "2023-10-01" @default.
W2012912162 title "Energy landscapes for diffusion: Analysis of cage-breaking processes" @default.
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W2012912162 cites W1614530981 @default.
W2012912162 cites W1944915281 @default.
W2012912162 cites W1963871440 @default.
W2012912162 cites W1965234283 @default.
W2012912162 cites W1968816631 @default.
W2012912162 cites W1975293349 @default.
W2012912162 cites W1977475134 @default.
W2012912162 cites W1978576933 @default.
W2012912162 cites W1980466508 @default.
W2012912162 cites W1981861666 @default.
W2012912162 cites W1986571002 @default.
W2012912162 cites W1988691270 @default.
W2012912162 cites W1997676547 @default.
W2012912162 cites W1999332508 @default.
W2012912162 cites W2004728018 @default.
W2012912162 cites W2004751437 @default.
W2012912162 cites W2006156037 @default.
W2012912162 cites W2008329355 @default.
W2012912162 cites W2008937980 @default.
W2012912162 cites W2010089043 @default.
W2012912162 cites W2011543665 @default.
W2012912162 cites W2013940604 @default.
W2012912162 cites W2018530992 @default.
W2012912162 cites W2030765885 @default.
W2012912162 cites W2040931334 @default.
W2012912162 cites W2046358757 @default.
W2012912162 cites W2048421180 @default.
W2012912162 cites W2050235837 @default.
W2012912162 cites W2051434435 @default.
W2012912162 cites W2051763485 @default.
W2012912162 cites W2061323657 @default.
W2012912162 cites W2066599827 @default.
W2012912162 cites W2078409719 @default.
W2012912162 cites W2078457847 @default.
W2012912162 cites W2080771362 @default.
W2012912162 cites W2084420590 @default.
W2012912162 cites W2086339315 @default.
W2012912162 cites W2088026849 @default.
W2012912162 cites W2090627946 @default.
W2012912162 cites W2093995846 @default.
W2012912162 cites W2103111465 @default.
W2012912162 cites W2103585025 @default.
W2012912162 cites W2107216861 @default.
W2012912162 cites W2117959730 @default.
W2012912162 cites W2140035851 @default.
W2012912162 cites W2144771795 @default.
W2012912162 cites W2162653376 @default.
W2012912162 cites W2166090045 @default.
W2012912162 cites W2203031395 @default.
W2012912162 cites W2995067424 @default.
W2012912162 cites W3103368869 @default.
W2012912162 cites W3104575368 @default.
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W2012912162 cites W4236796448 @default.
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W2012912162 doi "https://doi.org/10.1063/1.2992128" @default.
W2012912162 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19045284" @default.
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