Improved density functional approximations from a new model of the uniform electron gas. By studying the way that electrons move on the surface of a sphere, this project will systematically construct new methods for studying and predicting chemistry using the laws of quantum mechanics. The work will pave the way for even complicated chemical reactions to be investigated using standard PC or Mac computers.
Accurate quantum chemistry via quadrature and resolution. This project seeks to develop two radical new approaches to the integration problem which lies at the heart of quantum chemistry. The first approach will systematically exploit the fact that the energy integral is a totally symmetric function of the electronic coordinates. The second approach will systematically develop one-electron resolutions of the many-electron operators that appear in explicitly correlated quantum chemical methods. A ....Accurate quantum chemistry via quadrature and resolution. This project seeks to develop two radical new approaches to the integration problem which lies at the heart of quantum chemistry. The first approach will systematically exploit the fact that the energy integral is a totally symmetric function of the electronic coordinates. The second approach will systematically develop one-electron resolutions of the many-electron operators that appear in explicitly correlated quantum chemical methods. After developing the underlying theory of these two approaches, this project will implement them efficiently in accessible software, so that they can be used by the scientific community to perform more accurate molecular modelling than has been possible in the past.Read moreRead less