Modeling nuclear quantum effects is required for accurate molecular dynamics (MD) simulations of molecules. The community has paid special attention to water and other biomolecules that show hydrogen bonding. Standard methods of modeling nuclear quantum effects like Ring Polymer Molecular Dynamics (RPMD) are computationally costlier than running classical trajectories. A force-field functor (FFF) is an alternative method that computes an effective force field that replicates quantum properties of the original force field. In this work, we propose an efficient method of computing FFF using the Wigner–Kirkwood expansion. As a test case, we calculate a range of thermodynamic properties of Neon, obtaining the same level of accuracy as RPMD, but...
Quantum chemistry embedding methods have become a popular approach to calculate molecular properties...
The quality of molecular dynamics simulations strongly depends on the accuracy of the underlying for...
We present a simple and accurate computational method which facilitates ab initio path-integral mole...
Modeling nuclear quantum effects is required for accurate molecular dynamics (MD) simulations of mol...
We introduce a novel procedure to parametrize biomolecular force fields. We perform finite-temperatu...
We outline a method to investigate the role of nuclear quantum effects in liquid water making use of...
We outline a method to investigate the role of nuclear quantum effects in liquid water making use of...
In order to improve the accuracy of molecular dynamics simulations, classical forcefields are supple...
The simulation of complex chemical systems often requires a multi-level description, in which a regi...
In order to improve the accuracy of molecular dynamics simulations, classical force fields are suppl...
Molecular dynamics (MD) simulations constitute the cornerstone of contemporary atomistic modeling in...
The simulation of complex chemical systems often requires a multi-level description, in which a regi...
A fully quantum mechanical force field (QMFF) based on a modified “divide-and-conquer” (mDC) framewo...
The quality of molecular dynamics simulations strongly depends on the accuracy of the underlying for...
A robust and automated protocol for the derivation of sound force field parameters, suitable for con...
Quantum chemistry embedding methods have become a popular approach to calculate molecular properties...
The quality of molecular dynamics simulations strongly depends on the accuracy of the underlying for...
We present a simple and accurate computational method which facilitates ab initio path-integral mole...
Modeling nuclear quantum effects is required for accurate molecular dynamics (MD) simulations of mol...
We introduce a novel procedure to parametrize biomolecular force fields. We perform finite-temperatu...
We outline a method to investigate the role of nuclear quantum effects in liquid water making use of...
We outline a method to investigate the role of nuclear quantum effects in liquid water making use of...
In order to improve the accuracy of molecular dynamics simulations, classical forcefields are supple...
The simulation of complex chemical systems often requires a multi-level description, in which a regi...
In order to improve the accuracy of molecular dynamics simulations, classical force fields are suppl...
Molecular dynamics (MD) simulations constitute the cornerstone of contemporary atomistic modeling in...
The simulation of complex chemical systems often requires a multi-level description, in which a regi...
A fully quantum mechanical force field (QMFF) based on a modified “divide-and-conquer” (mDC) framewo...
The quality of molecular dynamics simulations strongly depends on the accuracy of the underlying for...
A robust and automated protocol for the derivation of sound force field parameters, suitable for con...
Quantum chemistry embedding methods have become a popular approach to calculate molecular properties...
The quality of molecular dynamics simulations strongly depends on the accuracy of the underlying for...
We present a simple and accurate computational method which facilitates ab initio path-integral mole...