原子間力顕微鏡によるアモルファス氷表面構造の直接観察

日髙, 宏; 渡部, 直樹; 香内, 晃


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Hokkaido University Collection of Scholarly and Academic Papers >
Institute of Low Temperature Science >
低温科学 = Low Temperature Science >
第78巻 >

原子間力顕微鏡によるアモルファス氷表面構造の直接観察

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Please use this identifier to cite or link to this item:https://doi.org/10.14943/lowtemsci.78.27

Title:	原子間力顕微鏡によるアモルファス氷表面構造の直接観察
Other Titles:	Direct observation of surface structure of amorphous solid water by atomic force microscopy
Authors:	日髙, 宏¹ Browse this author →KAKEN DB
	渡部, 直樹² Browse this author →KAKEN DB
	香内, 晃³ Browse this author →KAKEN DB
Authors(alt):	Hidaka, Hiroshi¹
	Watanabe, Naoki²
	Kouchi, Akira³
Keywords:	分子雲
	氷星間塵
	原子間力顕微鏡
	表面構造
	molecular clouds
	interstellar icy grains
	NC-atomic force microscopy
	surface structure
Issue Date:	24-Mar-2020
Publisher:	低温科学第78巻編集委員会
Journal Title:	低温科学
Volume:	78
Start Page:	27
End Page:	33
Abstract:	星間分子雲中には，大量のガスとともにアモルファス氷に覆われた鉱物微粒子（氷星間塵）が存在する．近年，分子雲内で生じる物質進化において，この氷星間塵表面が重要な役割を果たすことが明らかになってきた．しかし，塵の表面を覆っているアモルファス氷の構造については，実はほとんど解っていない．一般に，固体表面が関与する物理化学素過程は表面構造に依存するので，それを明らかにすることは物質進化を理解する上で非常に重要である．アモルファス氷は結晶氷のように定まった構造をとらないが，その構造には形成条件に依存した何らかの傾向があるはずである．したがって，実際の氷星間塵表面構造の解明には，実験室で様々な条件で作製したアモルファス氷の表面構造を調べることが，その第一歩になる．本稿では，原子間力顕微鏡を用いてアモルファス氷表面の構造を明らかにする試みの現状を報告する．
Abstract:	In interstellar molecular clouds, there are small icy dust grains, which are mineral particles covered with amorphous solid water. In recent years, it has become clear that the surfaces of icy dust grains play an important role in the chemical evolution and dust aggregation in molecular clouds. However, the structure of the amorphous solid water covering the dust surfaces is not well understood. Although amorphous solid water does not have a fixed structure like crystalline ice, its structure should have some rigidity depending on the conditions of its formation. It is important to understand the surface structure of the amorphous solid water because the physicochemical processes involving the solid dust surfaces depend on this structure. In this paper, we report the current status of research into this topic to clarify the surface structure of amorphous solid water using an atomic force microscope.
Type:	bulletin (article)
URI:	http://hdl.handle.net/2115/77763
Appears in Collections:	低温科学 = Low Temperature Science > 第78巻

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