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Start Over Author "Roma E" Journal journal of computational chemistry
6 results on '"Roma E"'

1. Reduced-size polarized basis sets for calculations of molecular electric properties. II. Simulation of the Raman spectra

Author

Steven E. J. Bell, Andrzej J. Sadlej, Zuzana Benková, and Roma E. Oakes

Subjects
Basis (linear algebra), Series (mathematics), Chemistry, Analytical chemistry, Frequency data, General Chemistry, Computational physics, Computational Mathematics, symbols.namesake, Reduced size, symbols, Molecule, Electric properties, Raman spectroscopy, Order of magnitude
Abstract

The accuracies of the calculated vibrational frequencies and Raman intensities given by two new, highly compact Pol-type basis sets, Z2PolX and Z3PolX, have been determined and compared to the 6-31G(d), PolX, and aug-cc-pVTZ basis sets. Calculation of accurate Raman intensities has previously required large basis sets, but the ZmPolX basis sets are smaller even than PolX, which are the most compact basis sets able to calculate accurate Raman intensities. For the largest compound studied, C 5 H 1 0 O 2 , Z3PolX required more than an order of magnitude less CPU time than PolX, which has been shown to be 10 times faster than aug-cc-pVTZ. Two sets of test molecules were studied: one was a series of small molecules for which experimental values for absolute Raman activities were available; the second was a series of medium-sized molecules (mainly common organic solvents) where only relative Raman band intensities were available. The accuracies of the Raman intensities given by both of the ZmPolX basis sets were good compared to those of the PolX and aug-cc-pVTZ sets, and much better than the 6-31G(d) values. The errors in even unscaled frequency values

Published
2004

2. Reduced-size polarized basis sets for calculations of molecular electric properties. I. The basis set generation

Author

Zuzana Benková, Andrzej J. Sadlej, Roma E. Oakes, and Steven E. J. Bell

Subjects
Gaussian, Mathematical analysis, General Chemistry, Polarization (waves), STO-nG basis sets, Computational Mathematics, symbols.namesake, Dipole, Polarizability, Quantum mechanics, Electric field, symbols, Order of magnitude, Basis set, Mathematics
Abstract

Following the recent studies of basis sets explicitly dependent on oscillatory external electric field we have investigated the possibility of some further truncation of the so-called polarized basis sets without any major deterioration of the computed data for molecular dipole moments, dipole polarizabilities, and related electric properties of molecules. It has been found that basis sets of contracted Gaussian functions of the form [3s1p] for H and [4s3p1d] for the first-row atoms can satisfy this requirement with particular choice of contractions in their polarization part. With m denoting the number of primitive GTOs in the contracted polarization function, the basis sets devised in this article will be referred to as the ZmPol sets. In comparison with earlier, medium-size polarized basis sets (PolX), these new ZmPol basis sets are reduced by 2/3 in their size and lead to the order of magnitude computing time savings for large molecules. Simultaneously, the dipole moment and polarizability data remain at almost the same level of accuracy as in the case of the PolX sets. Among a variety of possible applications in computational chemistry, the ZmPolX are also to be used for calculations of frequencies and intensities in the Raman spectra of large organic molecules (see Part II, this issue).

Published
2004

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