6.12 Coupled-Cluster Methods 6.12.4 Second-Order Approximate Coupled Cluster Singles and Doubles (CC2)6.12.6 Quadratic Configuration Interaction (QCISD)

6.12.5 Size-Consistent Brillouin-Wigner Second-Order Approximate Coupled Cluster Singles and Doubles (BWs-CC2)

(May 21, 2025)

Choosing to approximate the Hamiltonian in the CCSD equations using the unperturbed Møller-Plesset Hamiltonian is a popular, but not unique choice. Instead, it is possible to use the unperturbed size-consistent Brillouin-Wigner Hamiltonian ¹⁸⁸ Carter-Fenk K., Head-Gordon M.
J. Chem. Phys.
(2023), 158, pp. 234108. Link ^, ¹⁹⁴ Carter-Fenk K., Shee J., Head-Gordon M.
J. Chem. Phys.
(2023), 159, pp. 171104. Link during evaluation of the Doubles equation. For a definition of this Hamiltonian, see section 6.8. In order to invoke this method, set METHOD = RIBWS2 in the REM section, and EXC_METHOD = CC2 in the $bws2 section. BWs-CC2 is available for all partitions, recommended is the use of either BW-s2 or MPR-BWs2. Currently, only the electronic ground state is implemented. For general purposes it is recommended to employ MPR-BWs2 with $A_{0}=1$ and $B_{0}=-1$ in BWs-CC2 calculations, though the optimal parameter set is dependent on the system and chemical quantity of interest.

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6.12.5 Size-Consistent Brillouin-Wigner Second-Order Approximate Coupled Cluster Singles and Doubles (BWs-CC2)