Add to ORKGIn this paper, we explore the numerical feasibility of carrying out quantum dynamics calculations from ab initio points for gas phase chemical reactions. In this approach, the ab initio data are Ðrst generated from quantum chemistry programs on a coarse numerical grid and a quantum dynamics calculation is then carried out using data from these grids. A crucial step in the success of this method is the application of a sequential one-dimensional Ðtting approach (SOFA) to give potential energy information o the original numerical grid. Using the SOFA scheme, one avoids the traditional and often intractable task of Ðtting a global potential energy surface from the ab initio data. In the present paper, a numerical test of this approach is repo...
Chemistry is a quantitative science in which rate processes play a major role. Not only they determ...
Thesis (Ph.D.)--University of Washington, 2021Quantum dynamics underpin almost all methods that chem...
The increasing computing power and the algorithmic improvements in quantum chemistry have been accel...
The goal of this program is the development and application of computational methods for studying ch...
We describe a method for performing nuclear quantum dynamics calculations using standard, grid-based...
The main goal of this program is the development and application of computational methods for studyi...
The full nature of theoretical chemistry and physics cannot be captured by static calculations alone...
We present significant algorithmic improvements to a recently-proposed direct quantum dynamics metho...
Chemistry is a quantitative science in which rate processes play a major role. Not only they determi...
The full nature of chemistry and physics cannot be captured by static calculations alone. Dynamics c...
Abstract: In a recent publication, we introduced a computational approach to treat the simultaneous ...
In the presented thesis we study quantum reaction dynamics of H2O- using semiclassical method. Using...
more accurate results, but in practice the number of atom types and hence the reliability of the cal...
The nuclear dynamics of molecules following photoexcitation are fundamentally quantum dynamical proc...
The gas-phase reaction dynamics for the C(D-1) + H-2(D-2) -> CH(D) + H(D) is investigated on a new a...
Chemistry is a quantitative science in which rate processes play a major role. Not only they determ...
Thesis (Ph.D.)--University of Washington, 2021Quantum dynamics underpin almost all methods that chem...
The increasing computing power and the algorithmic improvements in quantum chemistry have been accel...
The goal of this program is the development and application of computational methods for studying ch...
We describe a method for performing nuclear quantum dynamics calculations using standard, grid-based...
The main goal of this program is the development and application of computational methods for studyi...
The full nature of theoretical chemistry and physics cannot be captured by static calculations alone...
We present significant algorithmic improvements to a recently-proposed direct quantum dynamics metho...
Chemistry is a quantitative science in which rate processes play a major role. Not only they determi...
The full nature of chemistry and physics cannot be captured by static calculations alone. Dynamics c...
Abstract: In a recent publication, we introduced a computational approach to treat the simultaneous ...
In the presented thesis we study quantum reaction dynamics of H2O- using semiclassical method. Using...
more accurate results, but in practice the number of atom types and hence the reliability of the cal...
The nuclear dynamics of molecules following photoexcitation are fundamentally quantum dynamical proc...
The gas-phase reaction dynamics for the C(D-1) + H-2(D-2) -> CH(D) + H(D) is investigated on a new a...
Chemistry is a quantitative science in which rate processes play a major role. Not only they determ...
Thesis (Ph.D.)--University of Washington, 2021Quantum dynamics underpin almost all methods that chem...
The increasing computing power and the algorithmic improvements in quantum chemistry have been accel...