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The Molecular Oxygen Tetramer: Intermolecular Interactions and Implications for the $ε$ Solid Phase

Recent data have determined that the structure of the high pressure $ε$ phase of solid oxygen consists of clusters composed of four O$_2$ molecules. This finding has opened the question about the nature of the intermolecular interactions within the molecular oxygen tetramer. We use multiconfigurational ab initio calculations to obtain an adequate characterization of the ground singlet state of (O$_2$)$_4$ which is compatible with the non magnetic character of the $ε$ phase. In contrast to previous suggestions implying chemical bonding, we show that (O$_2$)$_4$ is a van der Waals like cluster where exchange interactions preferentially stabilize the singlet state. However, as the cluster shrinks, there is an extra stabilization due to many-body interactions that yields a significant softening of the repulsive wall. We show that this short range behavior is a key issue for the understanding of the structure of $ε$-oxygen.

preprint2011arXivOpen access
Massimiliano BartolomeiEstela Carmona-NovilloMarta I. HernándezJesús Pérez-RíosJosé Campos-MartínezRamón Hernández-Lamoneda
physics.atm-cluscond-mat.mtrl-sciphysics.chem-ph
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Open access6 authors3 topics
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Massimiliano BartolomeiEstela Carmona-NovilloMarta I. HernándezJesús Pérez-RíosJosé Campos-MartínezRamón Hernández-Lamoneda

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