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Main Authors: Sato, Reo, Taniguchi, So, Numadate, Naoki, Hama, Tetsuya
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.07398
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author Sato, Reo
Taniguchi, So
Numadate, Naoki
Hama, Tetsuya
author_facet Sato, Reo
Taniguchi, So
Numadate, Naoki
Hama, Tetsuya
contents Ice I has three forms depending on the stacking arrangements of its layers: hexagonal ice Ih, cubic ice Ic, and stacking disordered ice Isd. Below ~60 K, amorphous water becomes metastable, and the formation of any form of ice I is often implicitly precluded. Using a newly developed low-temperature reflection high-energy electron diffraction (RHEED) technique, we show that crystalline ice with cubic stacking sequences (i.e., ice Ic) formed through Ne sublimation from a solid H2O/Ne (1:1000 ratio) matrix at 13 K. The extent of staking disorder (disordered cubic and hexagonal stacking sequences) in the ice formed by Ne matrix sublimation is smaller than that in vapor-deposited ice Isd prepared at 143 K and below the limit of detection of low-temperature RHEED. Dependence of the resulting ice structures on the thickness of the H2O/Ne matrix shows that amorphous water first forms in the early stages of Ne sublimation and the cubic stacking sequence subsequently takes place. As the cubic ice Ic formed here at a much lower temperature (13 K) than previously observed (typically above 78 K), Ne matrix sublimation represents a novel route to the formation of cubic ice Ic under low-temperature and low-pressure conditions.
format Preprint
id arxiv_https___arxiv_org_abs_2407_07398
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Structure of crystalline water ice formed through neon matrix sublimation under cryogenic and vacuum conditions
Sato, Reo
Taniguchi, So
Numadate, Naoki
Hama, Tetsuya
Mesoscale and Nanoscale Physics
Earth and Planetary Astrophysics
Astrophysics of Galaxies
Ice I has three forms depending on the stacking arrangements of its layers: hexagonal ice Ih, cubic ice Ic, and stacking disordered ice Isd. Below ~60 K, amorphous water becomes metastable, and the formation of any form of ice I is often implicitly precluded. Using a newly developed low-temperature reflection high-energy electron diffraction (RHEED) technique, we show that crystalline ice with cubic stacking sequences (i.e., ice Ic) formed through Ne sublimation from a solid H2O/Ne (1:1000 ratio) matrix at 13 K. The extent of staking disorder (disordered cubic and hexagonal stacking sequences) in the ice formed by Ne matrix sublimation is smaller than that in vapor-deposited ice Isd prepared at 143 K and below the limit of detection of low-temperature RHEED. Dependence of the resulting ice structures on the thickness of the H2O/Ne matrix shows that amorphous water first forms in the early stages of Ne sublimation and the cubic stacking sequence subsequently takes place. As the cubic ice Ic formed here at a much lower temperature (13 K) than previously observed (typically above 78 K), Ne matrix sublimation represents a novel route to the formation of cubic ice Ic under low-temperature and low-pressure conditions.
title Structure of crystalline water ice formed through neon matrix sublimation under cryogenic and vacuum conditions
topic Mesoscale and Nanoscale Physics
Earth and Planetary Astrophysics
Astrophysics of Galaxies
url https://arxiv.org/abs/2407.07398