We report comparisons between energy-based quantum mechanics/molecular mechanics (QM/MM) and buffered force-based QM/MM simulations in silica. Local quantities—such as density of states, charges, forces, and geometries—calculated with both QM/MM approaches are compared to the results of full QM simulations. We find the length scale over which forces computed using a finite QM region converge to reference values obtained in full quantum-mechanical calculations is ∼10 Å rather than the ∼5 Å previously reported for covalent materials such as silicon. Electrostatic embedding of the QM region in the surrounding classical point charges gives only a minor contribution to the force convergence. While the energy-based approach provides accurate resu...
The practical size and time scale for QM based MD (QM-MD or AIMD) is 200 atoms for 50 ps. But we wan...
Computational modeling techniques are now standard tools in solid‐state science. They are used routi...
The simulation of complex chemical systems often requires a multi-level description, in which a regi...
We develop and analyze QM/MM (quantum/classic) hybrid methods for crystalline defects within the con...
The QM/MM method, which couples a quantum mechanical (QM) description of bonding in a localized regi...
Quantum mechanics/molecular mechanics (QM/MM) approaches are currently used to describe several prop...
The quality of molecular dynamics simulations strongly depends on the accuracy of the underlying for...
The tight binding model is a minimal electronic structure model for molecular modeling and simulatio...
Recent advances in quantum mechanical (QM)-based molecular dynamics (MD) simulations have used machi...
The implementation and validation of the adaptive buffered force (AdBF) quantum-mechanics/molecular-...
We present a molecular dynamics scheme which combines first-principles and machine-learning (ML) tec...
Hybrid quantum mechanics/molecular mechanics (QM/MM) simulations provide a powerful tool for studyin...
Hybrid quantum mechanics/molecular mechanics (QM/MM) simulations provide a powerful tool for studyin...
In order to overcome the difficulty of optimizing molecular geometry using quantum Monte Carlo metho...
We present an extension of the ‘learn on the fly’ method to the study of the motion of dislocations ...
The practical size and time scale for QM based MD (QM-MD or AIMD) is 200 atoms for 50 ps. But we wan...
Computational modeling techniques are now standard tools in solid‐state science. They are used routi...
The simulation of complex chemical systems often requires a multi-level description, in which a regi...
We develop and analyze QM/MM (quantum/classic) hybrid methods for crystalline defects within the con...
The QM/MM method, which couples a quantum mechanical (QM) description of bonding in a localized regi...
Quantum mechanics/molecular mechanics (QM/MM) approaches are currently used to describe several prop...
The quality of molecular dynamics simulations strongly depends on the accuracy of the underlying for...
The tight binding model is a minimal electronic structure model for molecular modeling and simulatio...
Recent advances in quantum mechanical (QM)-based molecular dynamics (MD) simulations have used machi...
The implementation and validation of the adaptive buffered force (AdBF) quantum-mechanics/molecular-...
We present a molecular dynamics scheme which combines first-principles and machine-learning (ML) tec...
Hybrid quantum mechanics/molecular mechanics (QM/MM) simulations provide a powerful tool for studyin...
Hybrid quantum mechanics/molecular mechanics (QM/MM) simulations provide a powerful tool for studyin...
In order to overcome the difficulty of optimizing molecular geometry using quantum Monte Carlo metho...
We present an extension of the ‘learn on the fly’ method to the study of the motion of dislocations ...
The practical size and time scale for QM based MD (QM-MD or AIMD) is 200 atoms for 50 ps. But we wan...
Computational modeling techniques are now standard tools in solid‐state science. They are used routi...
The simulation of complex chemical systems often requires a multi-level description, in which a regi...