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We present a first-principles theoretical study of the atomic and electronic structures, and of the zero-temperature phases of gallium. The picture of -Ga that emerges is of a metallic molecular crystal with a strong Ga₂ covalent bond and weaker intermolecular forces. This picture is supported in detail by the charge density, the electronic structure, and differential bond stretching under pressure. Anomalous features of -Ga, such as the Knight shift, anisotropic Fermi-surface effects, and optical absorption find a consistent explanation. Accurate x-ray measurements should reveal the Ga₂ covalent bonds.
Gong et al. (Sat,) studied this question.