Abstract

To date, the phase transition of ordinary proton-disordered ice to proton-ordered ice has been assumed to require an extremely long time (>104 year). However we have observed, by cryogenic transmission electron microscopy, the phase transition from a sphalerite proton-disordered phase (ice I c) to an orthorhombic proton-ordered phase (ice XI) in a thin film of pure water ice under electron beam irradiation on the time-scale of a laboratory experiment. Considering these experimental results, we argue that the phase transition to ice XI readily occurs under high-energy beam irradiation, and could occur in outer space, contrary to the prevailing notion.

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