Recent Progress of Floating-Zone Techniques for Bulk Single-Crystal Growth

Naoki Kikugawa

doi:10.3390/cryst14060552

論文 Recent Progress of Floating-Zone Techniques for Bulk Single-Crystal Growth

Naoki Kikugawa (Center for Basic Research on Materials/Advanced Materials Characterization Field/High Magnetic Field Physics Group, National Institute for Materials Science)

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引用

Naoki Kikugawa. Recent Progress of Floating-Zone Techniques for Bulk Single-Crystal Growth. Crystals. 2024, 14 (), 552-552. https://doi.org/10.3390/cryst14060552

(BibTeX)

代替タイトル: Recent Progress of Floating-Zone Techniques for Bulk Single-Crystal Growth

説明:

(abstract)

This review describes the recent progress of the floating-zone techniques for bulk single-crystal growth. The most crucial point of the crucible-free technique is to keep the molten zone stable. It has been investigated to yield a steeper temperature gradient at the liquid-solid interface along the growth direction and a homogeneous molten liquid along the rotation axis. We overview sev-eral recent achievements starting from the conventional setup, particularly for lamps equipped in horizontal or vertical configurations, tilting mirrors, shielding the irradiation, and filament sizes for the optical-lamp floating-zone furnaces. Also, we describe the recently advancing laser-heated floating-zone furnaces. Throughout the article, we emphasize that the floating-zone technique has been a powerful tool for crystal growth since the 1950s with its roots in the zone-melting method, and it has still been advancing for further materials growth such as quantum materials with modern scientific concepts.

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