Abstract
Microscopic calculations are presented of the surface and interface structure of the binary electron-hole liquid in $〈111〉$ -stressed Ge at $T=0$. The separation of the electron-hole droplet into two coexisting phases is found to have a surface precursor. The phase separation is predicted to occur without any nucleation process or hysteresis effects even though the phase transition is first order. Perfect wetting between the two liquid phases is predicted. Experimental implications are discussed.
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