Analytic Derivatives of Quartic-Scaling Doubly Hybrid XYGJ-OS Functional: Theory, Implementation, and Benchmark Comparison with M06-2X and MP2 Geometries for Nonbonded Complexes

Creators: Ji, Hyunjun; Shao, Yihan; Goddard, William A.; Jung, Yousung

Abstract

Analytic first derivative expression of opposite-spin (OS) ansatz-adapted quartic scaling doubly hybrid XYGJ-OS functional is derived and implemented into Q-Chem. The resulting algorithm scales quartically with system size as in OS-MP2 gradient, by utilizing the combination of Laplace transformation and density fitting technique. The performance of XYGJ-OS geometry optimization is assessed by comparing the bond lengths and the intermolecular properties in reference coupled cluster methods. For the selected nonbonded complexes in the S22 and S66 data sets used in the present benchmark test, it is shown that XYGJOS geometries are more accurate than M06-2X and RI-MP2, the two quantum chemical methods widely used to obtain accurate geometries for practical systems, and comparable to CCSD(T) geometries.

Additional Information

© 2013 American Chemical Society. Received: January 21, 2013; Published: March 4, 2013. We are pleased to acknowledge the support of Basic Science Research (2010-0023018) and WCU (R-31-2008-000-10055-0) programs funded by the Ministry of Education, Science, and Technology of Korea. Y.S. acknowledges financial support from NIH through SBIR grant no. GM096678 and Prof. Martin Head-Gordon for helpful discussions. We also thank Dr. Igor Ying Zhang and Prof. Xin Xu for helpful discussions. We acknowledge the generous supercomputing time from KISTI.

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