A new {ital ab initio} potential energy curve for the helium dimer
- Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory, Richland, Washington 99352 (United States)
The He{sub 2} interaction potential has been computed employing augmented correlation-consistent basis sets and several methods beyond those commonly used to recover electron correlation, namely fifth-order Mo/ller{endash}Plesset perturbation theory (MP5), coupled cluster theory with full triple excitations (CCSDT), and full configuration interaction (FCI). Calculations employing the largest basis sets were not feasible for the most sophisticated methods (MP5, CCSDT, and FCI). Nonetheless, because of the rapid convergence of the calculated interaction energy {ital differences} with basis set, it was possible to obtain reliable estimates of the complete basis set MP5, CCSDT, and FCI results. The MP5 method is predicted to yield a well depth of 10.67{plus_minus}0.03&hthinsp;K at the complete basis set (CBS) limit. Thus, the accuracy of the MP5 method is comparable to that of the CCSD(T) method which yields a D{sub e} of 10.68{plus_minus}0.02&hthinsp;K. The CCSDT method yields an estimated well depth of 10.98{plus_minus}0.03&hthinsp;K. Thus, the {ital full} effect of connected triple excitations on the He{sub 2} well depth is 1.74 K (CCSDT-CCSD). Comparing the basis set dependence of the CCSDT and FCI well depths, the effect of {ital connected} quadruple excitations on the well depth is estimated to be just 0.015{endash}0.020 K. Thus, the current calculations predict the FCI He{sub 2} well depth to be 11.00{plus_minus}0.03&hthinsp;K, in excellent agreement with the recent quantum Monte Carlo calculations of Anderson {ital et al.} [J. Chem. Phys. {bold 99}, 345 (1993)]. Taking advantage of the rapid convergence of the full triples and quadruples correlation corrections to the CCSD(T) interaction energy with basis set, an estimated FCI/CBS potential energy curve has been constructed for He{sub 2} from 3.5 to 15.0 a{sub 0}. The resulting curve lies between the HFD-B3-FCI1 and SAPT2 semi-empirical potentials of Aziz {ital et al.}, being closer to the SAPT2 potential. {copyright} {ital 1999 American Institute of Physics.}
- OSTI ID:
- 698833
- Journal Information:
- Journal of Chemical Physics, Journal Name: Journal of Chemical Physics Journal Issue: 20 Vol. 111; ISSN JCPSA6; ISSN 0021-9606
- Country of Publication:
- United States
- Language:
- English
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