Abstract
We have calculated static electric dipole (hyper)polarizabilities for a small silicon cluster, Si4. The molecular properties have been obtained from finite-field restricted-Hartree–Fock, Møller–Plesset perturbation theory, coupled-cluster and density functional theory calculations performed with carefully designed basis sets of gaussian-type functions. A large [8s6p5d2f] basis set is thought to provide near-Hartree–Fock quality results: = 142.77 and Δα = 77.93 e2a20E−1h for the mean and the anisotropy of the dipole polarizability and = 87.5 × 103e4a40E−3h for the mean hyperpolarizability. Electron correlation has a rather small effect on but a relatively strong one on Δα and . Our best values were obtained at the CCSD(T) level of theory with a [5s4p3d1f] basis set: = 140.35, Δα = 83.78 e2a20E−1h and = 106.3 × 103e4a40E−3h. At the same level of theory the differential (hyper)polarizability is (Si4) − 4Si = −9.21 e2a20E−1h and is (Si4) − 4Si = −65.3 × 103e4a40E−3h. To our knowledge, this is the first complete calculation of the dipole (hyper)polarizability of this cluster to be reported in the literature.
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