期刊
JOURNAL OF COMPUTATIONAL CHEMISTRY
卷 23, 期 10, 页码 957-965出版社
WILEY
DOI: 10.1002/jcc.10098
关键词
multireference perturbation theory; intruder state problem; excitation energy; potential energy surface (PES)
A new perturbation approach is proposed that enhances the low-order, perturbative convergence by modifying the zeroth-order Hamiltonian in a manner that enlarges any small-energy denominators that may otherwise appear in the perturbative expansion. This intruder state avoidance (ISA) method can be used in conjunction with any perturbative approach, but is most applicable to cases where small energy denominators arise from orthogonal-space states-so-called intruder states-that should, under normal circumstances, make a negligible contribution to the target state of interests. This ISA method is used with multireference Moller-Plesset (MRMP) perturbation theory on potential energy curves that are otherwise plagued by singularities when treated with (conventional) MRMP; calculation are per-formed on the 1(3)Sigma(u)(-)- state of O-2; and the 2(1)Delta, 3(1)Delta, 2(3)Delta, and 3(3)Delta states of AgH. This approach is also applied to other calculations where M MP is influenced by intruder states; calculations are performed on the (3)Pi(u) state of N-2, the (3)Pi state of CO, and the 2(1)A' state of formamide. A number of calculations are also performed to illustrate that this approach has little or no effect on MRMP when intruder states are not present in perturbative calculations vertical excitation energies are computed for the low-lying states of N-2, C-2, CO, formamide, and benzene; the adiabatic (1)A(1)-B-3(1) energy separation in CH2, and the spectroscopic parameters of O-2 are also calculated. Vertical excitation energies are also per-formed on the Q and B bands states of free-base, chlorin, and zinc-chlorin porphyrin, where somewhat larger couplings exists, and-as anticipated-a larger deviation is found between MRMP and ISA-MRMP. (C) 2002 Wiley Periodicals, Inc.
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