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Convergence of the CCSD(T) correction term for the stacked complex methyl adenine-methyl thymine: Comparison with lower-cost alternatives

Publication ,  Journal Article
Pitoňák, M; Janowski, T; Neogrády, P; Pulay, P; Hobza, P
Published in: Journal of Chemical Theory and Computation
July 14, 2009

We have performed large-scale calculations for the interaction energy of the stacked methyl adenine-methyl thymine complex at the CCSD(T)/aug-ccpVXZ (X ) D,T) levels. The results can serve as benchmarks for the evaluation of two methods, MP2.5, introduced recently, and the widely used δCCSD(T) correction defined as the difference between the CCSD(T) and MP2 energies. Our results confirm that the δCCSD(T) correction converges much faster toward the complete basis set (CBS) limit than toward the MP2 or CCSD(T) energies. This justifies approximating the CBS energy by adding the δCCSD(T) correction calculated with a modest basis set to a large basis MP2 energy. The fast convergence of the δCCSD(T) correction is not obvious, as the individual CCSD and (T) contributions converge less rapidly than their sum. The MP2.5 method performs very well for this system, with results very close to CCSD(T). It is conjectured that using a δMP2.5 correction, defined analogously to δCCSD(T), with large basis sets may yield more reliable nonbonded interaction energies than using δCCSD(T) with a smaller basis set. This would result in important computational savings as the MP3 scales computationally much less steep than CCSD(T), although higher than SCS-MP2, a similar approximation. © 2009 American Chemical Society.

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Published In

Journal of Chemical Theory and Computation

DOI

ISSN

1549-9618

Publication Date

July 14, 2009

Volume

5

Issue

7

Start / End Page

1761 / 1766

Related Subject Headings

  • Chemical Physics
  • 3407 Theoretical and computational chemistry
  • 3406 Physical chemistry
  • 0803 Computer Software
  • 0601 Biochemistry and Cell Biology
  • 0307 Theoretical and Computational Chemistry
 

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Pitoňák, M., Janowski, T., Neogrády, P., Pulay, P., & Hobza, P. (2009). Convergence of the CCSD(T) correction term for the stacked complex methyl adenine-methyl thymine: Comparison with lower-cost alternatives. Journal of Chemical Theory and Computation, 5(7), 1761–1766. https://doi.org/10.1021/ct900126q
Pitoňák, M., T. Janowski, P. Neogrády, P. Pulay, and P. Hobza. “Convergence of the CCSD(T) correction term for the stacked complex methyl adenine-methyl thymine: Comparison with lower-cost alternatives.” Journal of Chemical Theory and Computation 5, no. 7 (July 14, 2009): 1761–66. https://doi.org/10.1021/ct900126q.
Pitoňák M, Janowski T, Neogrády P, Pulay P, Hobza P. Convergence of the CCSD(T) correction term for the stacked complex methyl adenine-methyl thymine: Comparison with lower-cost alternatives. Journal of Chemical Theory and Computation. 2009 Jul 14;5(7):1761–6.
Pitoňák, M., et al. “Convergence of the CCSD(T) correction term for the stacked complex methyl adenine-methyl thymine: Comparison with lower-cost alternatives.” Journal of Chemical Theory and Computation, vol. 5, no. 7, July 2009, pp. 1761–66. Scopus, doi:10.1021/ct900126q.
Pitoňák M, Janowski T, Neogrády P, Pulay P, Hobza P. Convergence of the CCSD(T) correction term for the stacked complex methyl adenine-methyl thymine: Comparison with lower-cost alternatives. Journal of Chemical Theory and Computation. 2009 Jul 14;5(7):1761–1766.
Journal cover image

Published In

Journal of Chemical Theory and Computation

DOI

ISSN

1549-9618

Publication Date

July 14, 2009

Volume

5

Issue

7

Start / End Page

1761 / 1766

Related Subject Headings

  • Chemical Physics
  • 3407 Theoretical and computational chemistry
  • 3406 Physical chemistry
  • 0803 Computer Software
  • 0601 Biochemistry and Cell Biology
  • 0307 Theoretical and Computational Chemistry