Add to ORKGTheoretical studies of the electronic structure of metal clusters, in particular clusters of Group IIA and IIB atoms were conducted. Early in the project it became clear that electron correlation involving d orbitals plays a more important role in the binding of these clusters than had been previously anticipated. This necessitated that computer codes for calculating two electron integrals and for constructing the resulting CI Hamiltonions be replaced with newer, more efficient procedures. Program modification, interfacing and testing were performed. Results of both plans are reported
Researchers determined the equilibrium geometries and binding energies of Be and Mg trimers, tetrame...
This work describes the applications of ab-initio quantum chemical methods to the studies of atomic ...
Transition metals complexes (TMCs) express a variety of interesting physical properties brought abou...
Small transition metal clusters were studied at a high level of approximation, including all the val...
Metal atom clusters are studied based on the application of ab initio quantum mechanical approaches....
We generalized the method of Sankey and co-workers, which is based on the ab initio Harris functiona...
We generalized the method of Sankey and co-workers, which is based on the ab initio Harris functiona...
Contains fulltext : 60381.pdf (publisher's version ) (Closed access)We present cal...
We determine the atomic and electronic structures for neutral and singly positively chargedberyllium...
We find optimal atomic and electronic structures for neutral and singly, positively charged clusters...
The interactions of the ‘‘magic’’ Al12Si clusters are studied by first-principles electron-structure...
Electronic structure calculation methods, coupled with unbiased global optimization schemes are deve...
Using fixed-node diffusion quantum Monte Carlo (FN-DMC) simulation we investigate the electron corre...
We employ second-order Møller-Plesset perturbation theory level in combination with recently develop...
A new Ultraviolet Magnetic Time-of-Flight Photoelectron Spectrometer (MTOFPES) has been developed fo...
Researchers determined the equilibrium geometries and binding energies of Be and Mg trimers, tetrame...
This work describes the applications of ab-initio quantum chemical methods to the studies of atomic ...
Transition metals complexes (TMCs) express a variety of interesting physical properties brought abou...
Small transition metal clusters were studied at a high level of approximation, including all the val...
Metal atom clusters are studied based on the application of ab initio quantum mechanical approaches....
We generalized the method of Sankey and co-workers, which is based on the ab initio Harris functiona...
We generalized the method of Sankey and co-workers, which is based on the ab initio Harris functiona...
Contains fulltext : 60381.pdf (publisher's version ) (Closed access)We present cal...
We determine the atomic and electronic structures for neutral and singly positively chargedberyllium...
We find optimal atomic and electronic structures for neutral and singly, positively charged clusters...
The interactions of the ‘‘magic’’ Al12Si clusters are studied by first-principles electron-structure...
Electronic structure calculation methods, coupled with unbiased global optimization schemes are deve...
Using fixed-node diffusion quantum Monte Carlo (FN-DMC) simulation we investigate the electron corre...
We employ second-order Møller-Plesset perturbation theory level in combination with recently develop...
A new Ultraviolet Magnetic Time-of-Flight Photoelectron Spectrometer (MTOFPES) has been developed fo...
Researchers determined the equilibrium geometries and binding energies of Be and Mg trimers, tetrame...
This work describes the applications of ab-initio quantum chemical methods to the studies of atomic ...
Transition metals complexes (TMCs) express a variety of interesting physical properties brought abou...