%0 Journal Article %1 AK40 %A Evangelista, Francesco A. %A Hanauer, Matthias %A Köhn, Andreas %A Gauss, Jürgen %D 2012 %J J. Chem. Phys. %K chemie imported koehn köhn from:alexanderdenzel theoretische stuttgart theochem %N 20 %P 204108 %R 10.1063/1.4718704 %T A sequential transformation approach to the internally contracted multireference coupled cluster method %U http://dx.doi.org/10.1063/1.4718704 %V 136 %X The internally contracted multireference coupled cluster (ic-MRCC) approach is formulated using a new wave function ansatz based on a sequential transformation of the reference function (sqic-MRCC). This alternative wave function simplifies the formulation of computationally viable methods while preserving the accuracy of the ic-MRCC approach. The structure of the sqic-MRCC wave function allows folding the effect of the single excitations into a similarity-transformed Hamiltonian whose particle rank is equal to the one of the Hamiltonian. Consequently, we formulate an approximation to the sqic-MRCC method with singles and doubles (included respectively up to fourfold and twofold commutators, sqic-MRCCSD［2］) that contains all terms present in the corresponding single-reference coupled cluster scheme. Computations of the potential energy curves for the dissociation of BeH(2) show that the untruncated sqic-MRCCSD scheme yields results that are almost indistinguishable from the ordinary ic-MRCCSD method. The energy obtained from the computationally less expensive sqic-MRCCSD［2］ approximation is found to deviate from the full ic-MRCCSD method by less than 0.2 mE(h) for BeH(2), while, in the case of water, the harmonic vibrational frequencies of ozone, the singlet-triplet splitting of p-benzyne, and the dissociation curve of N(2), sqic-MRCCSD［2］ faithfully reproduces the results obtained via the ic-MRCCSD scheme truncated to two commutators. A formal proof is given of the equivalence of the ic-MRCC and sqic-MRCC methods with the internally contracted and full configuration interaction approaches. %@ 1089-7690 (Electronic)$\backslash$r0021-9606 (Linking)

@article{AK40, abstract = {The internally contracted multireference coupled cluster (ic-MRCC) approach is formulated using a new wave function ansatz based on a sequential transformation of the reference function (sqic-MRCC). This alternative wave function simplifies the formulation of computationally viable methods while preserving the accuracy of the ic-MRCC approach. The structure of the sqic-MRCC wave function allows folding the effect of the single excitations into a similarity-transformed Hamiltonian whose particle rank is equal to the one of the Hamiltonian. Consequently, we formulate an approximation to the sqic-MRCC method with singles and doubles (included respectively up to fourfold and twofold commutators, sqic-MRCCSD［2］) that contains all terms present in the corresponding single-reference coupled cluster scheme. Computations of the potential energy curves for the dissociation of BeH(2) show that the untruncated sqic-MRCCSD scheme yields results that are almost indistinguishable from the ordinary ic-MRCCSD method. The energy obtained from the computationally less expensive sqic-MRCCSD［2］ approximation is found to deviate from the full ic-MRCCSD method by less than 0.2 mE(h) for BeH(2), while, in the case of water, the harmonic vibrational frequencies of ozone, the singlet-triplet splitting of p-benzyne, and the dissociation curve of N(2), sqic-MRCCSD［2］ faithfully reproduces the results obtained via the ic-MRCCSD scheme truncated to two commutators. A formal proof is given of the equivalence of the ic-MRCC and sqic-MRCC methods with the internally contracted and full configuration interaction approaches.}, added-at = {2019-02-06T13:16:27.000+0100}, author = {Evangelista, Francesco A. and Hanauer, Matthias and K{\"{o}}hn, Andreas and Gauss, J{\"{u}}rgen}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/259b0afb731ea15f6c2a24c7a536ae4c6/theochem}, doi = {10.1063/1.4718704}, interhash = {4d5e0a7ae995c65b51750299fcc1fbfa}, intrahash = {59b0afb731ea15f6c2a24c7a536ae4c6}, isbn = {1089-7690 (Electronic)$\backslash$r0021-9606 (Linking)}, issn = {00219606}, journal = {J. Chem. Phys.}, keywords = {chemie imported koehn köhn from:alexanderdenzel theoretische stuttgart theochem}, number = 20, pages = 204108, pmid = {22667541}, timestamp = {2019-02-06T12:16:27.000+0100}, title = {{A sequential transformation approach to the internally contracted multireference coupled cluster method}}, url = {http://dx.doi.org/10.1063/1.4718704}, volume = 136, year = 2012 }