André Nauts scite author profile

The hierarchical expansion of the kinetic energy operator in curvilinear coordinates extended to the vibrational configuration interaction method Hierarchical expansion of the kinetic energy operator in curvilinear coordinates for the vibrational self-consistent field methodThe conformation and dynamical behavior of molecular systems is very often advantageously described in terms of physically well-adapted curvilinear coordinates. It is rather easy to show that the numerous analytical expressions of the kinetic energy operator of a molecular system described in terms of n curvilinear coordinates can all be transformed into the following more usable expression:, and (q) are functions of the curvilinear coordinates qϭ(...,q i ,...). If the advantages of curvilinear coordinates are unquestionable, they do have a major drawback: the sometimes awful complexity of the analytical expression of the kinetic operator T for molecular systems with more than five atoms. Therefore, we develop an algorithm for computing T for a given value of the n curvilinear coordinates q. The calculation of the functions f 2 i j (q), f 1 i (q), and (q) only requires the knowledge of the Cartesian coordinates and their derivatives in terms of the n curvilinear coordinates. This coordinate transformation (curvilinear→Cartesian) is very easy to perform and is widely used in quantum chemistry codes resorting to a Z-matrix to define the curvilinear coordinates. Thus, the functions f 2 i j (q), f 1 i (q), and (q) can be evaluated numerically and exactly for a given value of q, which makes it possible to propagate wavepackets or to simulate the spectra of rather complex systems ͑constrained Hamiltonian͒. The accuracy of this numerical procedure is tested by comparing two calculations of the bending spectrum of HCN: the first one, performed by using the present numerical kinetic operator procedure, the second one, obtained in previous studies, by using an analytical kinetic operator. Finally, the ab initio computation of the internal rotation spectrum and wave functions of 2-methylpropanal by means of dimensionality reduction, is given as an original application.

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Vector parametrization of the N-atom problem in quantum mechanics. I. Jacobi vectors

Gatti

et al. 1998

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André Nauts

Exact numerical computation of a kinetic energy operator in curvilinear coordinates

Vector parametrization of the N-atom problem in quantum mechanics. I. Jacobi vectors

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