Due to the fast increasing capabilities of modern computers it is now feasible to calculate spectra of small atom and molecules with the greater level of accuracy than high-resolution measurements. The mathematical algorithms developed and implemented on high performance supercomputers for the quantum mechanical calculations are directly derived from the first principles of quantum mechanics. The codes developed are primarily used to verify, refine, and predict the energies associated within a given system and given angular momentum state of interest. The Hamiltonian operator used to determine the total energy in the approach presented is called the internal Hamiltonian and is obtained by rigorously separating out the center-of-mass motion ...
The research overviewed in this dissertation concerns highly accurate variational calculations of sm...
Author Institution: Department of Chemistry, University of California“An IBM Type 701 data processin...
Algorithms for calculating the leading mass-velocity (MV) and Darwin (D) relativistic corrections ar...
We present high accuracy calculations of molecular systems in a basis of explicitly correlated gauss...
In this work we report progress in the development and implementation of quantum-mechanical methods ...
In our previous work S. Bubin et al., Chem. Phys. Lett. 647, 122 (2016), it was established that com...
We have implemented the use of mixed basis sets of Gaussian one- and two-electron (geminal) function...
Abstract Complex explicitly correlated one-center all-particle Gaussian functions (CECGs) are tested...
The choice of basis set in quantum chemical calculations can have a huge impact on the quality of th...
PoznańExponentially Correlated Gaussian wave functions are applied to variational calculations of th...
In this dissertation recent advances in modeling various atomic and molecular systems with quantum m...
We have implemented the use of mixed basis sets of Gaussian one- and two-electron (geminal) function...
Continuing attention has addressed incorportation of the electronically dynamical attributes of biom...
A theoretical ab initio approach for calculating bound states of small atoms is developed and implem...
Explicitly correlated Gaussian functions are implemented in order to calculate the rovibrational sp...
The research overviewed in this dissertation concerns highly accurate variational calculations of sm...
Author Institution: Department of Chemistry, University of California“An IBM Type 701 data processin...
Algorithms for calculating the leading mass-velocity (MV) and Darwin (D) relativistic corrections ar...
We present high accuracy calculations of molecular systems in a basis of explicitly correlated gauss...
In this work we report progress in the development and implementation of quantum-mechanical methods ...
In our previous work S. Bubin et al., Chem. Phys. Lett. 647, 122 (2016), it was established that com...
We have implemented the use of mixed basis sets of Gaussian one- and two-electron (geminal) function...
Abstract Complex explicitly correlated one-center all-particle Gaussian functions (CECGs) are tested...
The choice of basis set in quantum chemical calculations can have a huge impact on the quality of th...
PoznańExponentially Correlated Gaussian wave functions are applied to variational calculations of th...
In this dissertation recent advances in modeling various atomic and molecular systems with quantum m...
We have implemented the use of mixed basis sets of Gaussian one- and two-electron (geminal) function...
Continuing attention has addressed incorportation of the electronically dynamical attributes of biom...
A theoretical ab initio approach for calculating bound states of small atoms is developed and implem...
Explicitly correlated Gaussian functions are implemented in order to calculate the rovibrational sp...
The research overviewed in this dissertation concerns highly accurate variational calculations of sm...
Author Institution: Department of Chemistry, University of California“An IBM Type 701 data processin...
Algorithms for calculating the leading mass-velocity (MV) and Darwin (D) relativistic corrections ar...