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W2029864817 endingPage "194114" @default.
W2029864817 startingPage "194114" @default.
W2029864817 abstract "The multiscale coarse-graining (MS-CG) method is a method for constructing a coarse-grained (CG) model of a system using data obtained from molecular dynamics simulations of the corresponding atomically detailed model. The formal statistical mechanical derivation of the method shows that the potential energy function extracted from an MS-CG calculation is a variational approximation for the true potential of mean force of the CG sites, one that becomes exact in the limit that a complete basis set is used in the variational calculation if enough data are obtained from the atomistic simulations. Most applications of the MS-CG method have employed a representation for the nonbonded part of the CG potential that is a sum of all possible pair interactions. This approach, despite being quite successful for some CG models, is inadequate for some others. Here we propose a systematic method for including three body terms as well as two body terms in the nonbonded part of the CG potential energy. The current method is more general than a previous version presented in a recent paper of this series [L. Larini, L. Lu, and G. A. Voth, J. Chem. Phys. 132, 164107 (2010)], in the sense that it does not make any restrictive choices for the functional form of the three body potential. We use hierarchical multiresolution functions that are similar to wavelets to develop very flexible basis function expansions with both two and three body basis functions. The variational problem is solved by a numerical technique that is capable of automatically selecting an appropriate subset of basis functions from a large initial set. We apply the method to two very different coarse-grained models: a solvent free model of a two component solution made of identical Lennard-Jones particles and a one site model of SPC/E water where a site is placed at the center of mass of each water molecule. These calculations show that the inclusion of three body terms in the nonbonded CG potential can lead to significant improvement in the accuracy of CG potentials and hence of CG simulations." @default.
W2029864817 created "2016-06-24" @default.
W2029864817 creator A5011309280 @default.
W2029864817 creator A5072439726 @default.
W2029864817 date "2012-05-21" @default.
W2029864817 modified "2023-10-12" @default.
W2029864817 title "The multiscale coarse-graining method. IX. A general method for construction of three body coarse-grained force fields." @default.
W2029864817 cites W1166867742 @default.
W2029864817 cites W1966065621 @default.
W2029864817 cites W1966078827 @default.
W2029864817 cites W1967332259 @default.
W2029864817 cites W1969455492 @default.
W2029864817 cites W1972390461 @default.
W2029864817 cites W1975017420 @default.
W2029864817 cites W1975689032 @default.
W2029864817 cites W1977383950 @default.
W2029864817 cites W1981210409 @default.
W2029864817 cites W1986356457 @default.
W2029864817 cites W1987153424 @default.
W2029864817 cites W1989806189 @default.
W2029864817 cites W1990242519 @default.
W2029864817 cites W1991794210 @default.
W2029864817 cites W1993063667 @default.
W2029864817 cites W1995817513 @default.
W2029864817 cites W1999138060 @default.
W2029864817 cites W2005386175 @default.
W2029864817 cites W2007872320 @default.
W2029864817 cites W2008418858 @default.
W2029864817 cites W2009133700 @default.
W2029864817 cites W2009997795 @default.
W2029864817 cites W2016737873 @default.
W2029864817 cites W2017562024 @default.
W2029864817 cites W2021344187 @default.
W2029864817 cites W2021438484 @default.
W2029864817 cites W2030168405 @default.
W2029864817 cites W2035178327 @default.
W2029864817 cites W2037782625 @default.
W2029864817 cites W2038302435 @default.
W2029864817 cites W2039098353 @default.
W2029864817 cites W2039981635 @default.
W2029864817 cites W2041638382 @default.
W2029864817 cites W2041794576 @default.
W2029864817 cites W2045430232 @default.
W2029864817 cites W2045642444 @default.
W2029864817 cites W2047022491 @default.
W2029864817 cites W2049286183 @default.
W2029864817 cites W2049475242 @default.
W2029864817 cites W2051864856 @default.
W2029864817 cites W2054267100 @default.
W2029864817 cites W2059121391 @default.
W2029864817 cites W2060036077 @default.
W2029864817 cites W2061308254 @default.
W2029864817 cites W2065148800 @default.
W2029864817 cites W2066005503 @default.
W2029864817 cites W2067174909 @default.
W2029864817 cites W2067763399 @default.
W2029864817 cites W2080131977 @default.
W2029864817 cites W2087616070 @default.
W2029864817 cites W2092354764 @default.
W2029864817 cites W2093795463 @default.
W2029864817 cites W2093892346 @default.
W2029864817 cites W2094707581 @default.
W2029864817 cites W2095530874 @default.
W2029864817 cites W2098940789 @default.
W2029864817 cites W2099804970 @default.
W2029864817 cites W2103945336 @default.
W2029864817 cites W2114441129 @default.
W2029864817 cites W2135300233 @default.
W2029864817 cites W2138671124 @default.
W2029864817 cites W2142694980 @default.
W2029864817 cites W2144646547 @default.
W2029864817 cites W2146462263 @default.
W2029864817 cites W2159565091 @default.
W2029864817 cites W2168031390 @default.
W2029864817 cites W2050767681 @default.
W2029864817 doi "https://doi.org/10.1063/1.4705417" @default.
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