How to Choose One-dimensional Basis Functions So That a Very Efficient Multidimensional Basis May Be Extracted From a Direct Product of the One-dimensional Functions: Energy Levels of Coupled Systems with as Many as 16 CoordinatesJournal of Chemical Physics
AbstractIn this paper we propose a scheme for choosing basis functions for quantum dynamics calculations. Direct product bases are frequently used. the number of direct product functions required to converge a spectrum, compute a rate constant, etc., is so large that direct product calculations are impossible for molecules or reacting systems with more than four atoms. It is common to extract a smaller working basis from a huge direct product basis by removing some of the product functions. We advocate a build and prune strategy of this type. the one-dimensional (1D) functions from which we build the direct product basis are chosen to satisfy two conditions: (1) they nearly diagonalize the full Hamiltonian matrix; (2) they minimize off-diagonal matrix elements that couple basis functions with diagonal elements close to those of the energy levels we wish to compute. by imposing these conditions we increase the number of product functions that can be removed from the multidimensional basis without degrading the accuracy of computed energy levels. Two basic types of 1D basis functions are in common use: eigenfunctions of 1D Hamiltonians and discrete variable representation (DVR) functions. Both have advantages and disadvantages. the 1D functions we propose are intermediate between the 1D eigenfunction functions and the DVR functions. If the coupling is very weak, they are very nearly 1D eigenfunction functions. as the strength of the coupling is increased they resemble more closely DVR functions. We assess the usefulness of our basis by applying it to model 6D, 8D, and 16D Hamiltonians with various coupling strengths. We find approximately linear scaling. © 2005 American Institute of Physics.
Keywords and Phrases
- Coupling strengths,
- Discrete variable representation (DVR),
- One-dimensional basis functions,
- Prune strategy,
- Eigenvalues and eigenfunctions,
- Matrix algebra,
- Electron energy levels
Document TypeArticle - Journal
Rights© 2005, American Institute of Physics (AIP), All rights reserved.
Citation InformationRichard Dawes and Tucker Carrington. "How to Choose One-dimensional Basis Functions So That a Very Efficient Multidimensional Basis May Be Extracted From a Direct Product of the One-dimensional Functions: Energy Levels of Coupled Systems with as Many as 16 Coordinates" Journal of Chemical Physics Vol. 122 Iss. 13 (2005) ISSN: 0021-9606
Available at: http://works.bepress.com/richard_dawes/59/