We analyze convergence of energies and forces for the AMOEBA classical polarizable model when evaluated as a many-body expansion (MBE) against the corresponding N-body parent potential in the context of a condensed-phase water simulation. This is in contrast to most MBE formulations based on quantum mechanics, which focus only on convergence of energies for gas-phase clusters. Using a single water molecule as a definition of a body, we find that truncation of the MBE at third order, 3-AMOEBA, captures direct polarization exactly and yields apparent good convergence of the mutual polarization energy. However, it renders large errors in the magnitude of polarization forces and requires at least fourth-order terms in the MBE to converge toward...
We incorporate geometry-dependent distributed multipole and polarizability surfaces into an inductio...
I report on the derivation, development and computer implementation of methods for computing the ene...
Thesis (Ph.D.)--University of Washington, 2022The many-body expansion (MBE) is a method of decomposi...
We analyze convergence of energies and forces for the AMOEBA classical polarizable model when evalua...
We analyze convergence of energies and forces for the AMOEBA classical polarizable model when evalua...
In this work, we evaluate the accuracy of the classical AMOEBA model for representing many-body inte...
The many-body convergence of the dipole moment and the dipole–dipole polarizability of water is inve...
In this work, we have developed an anisotropic polarizable model for the AMOEBA force field that is ...
The Many-Body Expansion (MBE) is a useful tool to simulate condensed phase chemical systems, often a...
Classical potentials based on isotropic and additive atomic charges have been widely used to model m...
We report the development of a united AMOEBA (uAMOEBA) polarizable water model, which is computation...
We report the iAMOEBA ("inexpensive AMOEBA") classical polarizable water model. The iAMOEBA model us...
Molecular simulations of water using classical, molecular mechanic potential energy functions have e...
We have evaluated the extent to which classical polarizable force fields, based either on the chemic...
We incorporate geometry-dependent distributed multipole and polarizability surfaces into an inductio...
We incorporate geometry-dependent distributed multipole and polarizability surfaces into an inductio...
I report on the derivation, development and computer implementation of methods for computing the ene...
Thesis (Ph.D.)--University of Washington, 2022The many-body expansion (MBE) is a method of decomposi...
We analyze convergence of energies and forces for the AMOEBA classical polarizable model when evalua...
We analyze convergence of energies and forces for the AMOEBA classical polarizable model when evalua...
In this work, we evaluate the accuracy of the classical AMOEBA model for representing many-body inte...
The many-body convergence of the dipole moment and the dipole–dipole polarizability of water is inve...
In this work, we have developed an anisotropic polarizable model for the AMOEBA force field that is ...
The Many-Body Expansion (MBE) is a useful tool to simulate condensed phase chemical systems, often a...
Classical potentials based on isotropic and additive atomic charges have been widely used to model m...
We report the development of a united AMOEBA (uAMOEBA) polarizable water model, which is computation...
We report the iAMOEBA ("inexpensive AMOEBA") classical polarizable water model. The iAMOEBA model us...
Molecular simulations of water using classical, molecular mechanic potential energy functions have e...
We have evaluated the extent to which classical polarizable force fields, based either on the chemic...
We incorporate geometry-dependent distributed multipole and polarizability surfaces into an inductio...
We incorporate geometry-dependent distributed multipole and polarizability surfaces into an inductio...
I report on the derivation, development and computer implementation of methods for computing the ene...
Thesis (Ph.D.)--University of Washington, 2022The many-body expansion (MBE) is a method of decomposi...