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The Surface Diffusion Length of Water Molecules on Faceted Ice: A Reanalysis of “Roles of Surface/Volume Diffusion in the Growth Kinetics of Elementary Spiral Steps on Ice Basal Faces Grown from Water Vapor, by Asakawa et al

机译：水分子在多面冰上的表面扩散长度：Asakawa等人“水蒸气生长的冰基面上基本螺旋台阶的生长动力学中的表面/体积扩散的作用”的再分析

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We reanalyzed the measurements made by Asakawa et al. [1] of the growth velocities of single-molecule-high steps on basal ice surfaces, as we believe the authors made a number of incorrect assumptions regarding ice growth parameters and bulk diffusion in their experiments. Applying what we believe are more accurate assumptions, we used the data in [1] to derive a surface diffusion length of x_s ≈ 10 nm forudwater molecules on basal ice surfaces at T = −8.4 C, about 500 times lower than what was reported in [1].udMoreover, in our analysis we found that no information about the height of the Ehrlich-Schwoebel barrierudcould be obtained from these measurements.

机译：我们重新分析了Asakawa等人所做的测量。 [1]在基础冰表面上单分子高阶跃的生长速度，因为我们相信作者在实验中对冰的生长参数和体积扩散做出了许多错误的假设。应用我们认为更准确的假设，我们使用[1]中的数据推导了在T = −8.4 C时基冰表面上的 udwater分子的表面扩散长度为x_s≈10 nm，比以前低了约500倍。此外，在我们的分析中，我们发现无法从这些测量中获得有关Ehrlich-Schwoebel势垒高度的信息。

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Libbrecht Kenneth G.;
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1. Roles of Surface/Volume Diffusion in the Growth Kinetics of Elementary Spiral Steps on Ice Basal Faces Grown from Water Vapor [J] . Harutoshi Asakawa, Gen Sazaki, Etsuro Yokoyama, Crystal growth & design . 2014,第7期

机译：表面/体积扩散在水蒸气生长的冰基面上基本螺旋台阶生长动力学中的作用
2. Temperature Dependence of the Growth Kinetics of Elementary Spiral Steps on Ice Basal Faces Grown from Water Vapor [J] . Masahiro Inomata, Ken-ichiro Murata, Harutoshi Asakawa, Crystal growth & design . 2018,第2期

机译：基础螺旋步骤对水蒸气生长的基本螺旋步骤生长动力学的温度依赖性
3. Double Spiral Steps on I_h Ice Crystal Surfaces Grown from Water Vapor Just below the Melting Point [J] . Gen Sazaki, Harutoshi Asakawa, Ken Nagashima, Crystal growth & design . 2014,第5期

机译：在低于熔点的水蒸气中生长的I_h冰晶表面上的双螺旋台阶
4. Density profile and self-diffusion of water molecules on brucite and talc surfaces by molecular dynamics simulations [C] . Hiroshi SAKUMA, Katsuyuki KAWAMURA the International Symposium on Physicochemistry of Water and Dynamics of Materials and the Earth-Structures and Behaviors of the thin Film Water . 2004

机译：通过分子动力学模拟，密度剖面和水分子的自扩散水分和滑石表面
5. Molecular structure, diffusion dynamics and hydration energetics of non-confined water and water at mineral surfaces. [D] . Wang, Jianwei. 2004

机译：非受限水和矿物表面水的分子结构，扩散动力学和水合能。
6. Origin of subdiffusion of water molecules on cell membrane surfaces [O] . Eiji Yamamoto, Takuma Akimoto, Masato Yasui, -1

机译：水分子在细胞膜表面再扩散的起源
7. Incorporating Surface Diffusion into a Cellular Automata Model of Ice Growth from Water Vapor [O] . Libbrecht Kenneth G. 2015

机译：将表面扩散纳入水汽冰生长的细胞自动机模型中
8. Surface and Interfacial Studies of Ice and Interaction of Water and Polymeric Materials at Temperatures Below 0C. (Adsorption of Water Vapor on Polymers and Freezing of Aqueous Polymer Solutions with Reference to Cryobiology) [R] . Jellinek, H. H. G., Fok, S. Y., Nagarajan, V., 1969

机译：冰的表面和界面研究以及水和聚合物材料在0℃以下的相互作用。（参考低温学，吸附水蒸气对聚合物的吸附和冷冻水性聚合物溶液）

The Surface Diffusion Length of Water Molecules on Faceted Ice: A Reanalysis of “Roles of Surface/Volume Diffusion in the Growth Kinetics of Elementary Spiral Steps on Ice Basal Faces Grown from Water Vapor, by Asakawa et al

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