Ab initio coupled-cluster calculations for the fcc and hcp structures of rare-gas solids

In order to gain more insight into factors governing the relative stability of the fee and hcp structures of the rate-gas solids Ne through Xe, we per formed nh initio coupled-cluster calculations far the most important three- and four-body terms in the many-body expansion of the cohesive energy. The se terms are combined with empirical two-body potentials derived from dimer data and with a multipole expansion for the long-range three-body terms. I n addition, we calculated phonon spectra, in harmonic approximation, for th e two structures. Including zero-point energies, our results agree very wel l with experimental data for the fee structure. The hypothetical hcp struct ure, which is lower in energy with two-body potentials, Is destabilized by short-range three-body terms and, even more important, by the contribution of zero-point vibration.