Three-body expansion and generalized dynamic fragmentation improve the fragment molecular orbital-based molecular dynamics (FMO-MD)

The fragment molecular orbital-based molecular dynamics (FMO-MD) was improved by the introduction of the three-body extension (FMO3) and the generalized dynamic fragmentation. An analytical energy gradient was derived for FMO3 to realize FMO3-MD. An algorithm of generalized dynamic fragmentation was devised to treat each covalent-bonded and, optionally, hydrogen-bonded atom cluster as a fragment in the course of FMO-MD. The new algorithms were tested by performing conventional MO-MD, FMO2-MD, based on two-body extension, and FMO3-MD simulations of (H2O)32 and H+(H2O)32. FMO2-MD resulted in lower precision, especially in H+(H2O)32, while FMO3-MD gave a precision comparable to that of MO-MD.

Graphical abstractFMO-MD, an ab initio molecular dynamics method, was improved by the introduction of 3-body expansion (FMO3) and generalized dynamic fragmentation.Download high-res image (29KB)Download full-size image