2019年第80回応用物理学会秋季学術講演会

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コードシェアセッション » 【CS.4】 3.11 フォトニック構造・現象と3.12 ナノ領域光科学・近接場光学のコードシェアセッション

[21a-E208-1~12] 【CS.4】 3.11 フォトニック構造・現象と3.12 ナノ領域光科学・近接場光学のコードシェアセッション

2019年9月21日(土) 09:00 〜 12:15 E208 (E208)

岩見 健太郎(農工大)、角倉 久史(NTT)

11:00 〜 11:15

[21a-E208-8] Spectrally Selective Ultrahigh-Temperature Thermal Emitter with Lanthanum Hexaboride: Operating Temperature Surpassing 1200oC

〇(DC)Anh Tung Doan1,2、Thang Duy Dao1、Dang Hai Ngo1,2、Orjan Handegard1,2、Thien Duc Ngo1,2、Satoshi Ishii1、Tadaaki Nagao1,2 (1.Photonics Nano-engineering Group, Materials Architectonics, National Inst. for Materials Science, Japan、2.Department of Condensed Matter Physics, Graduate School of Science, Hokkaido Univ., Japan)

キーワード:Lanthanum hexaboride, refractory, thermal emitter

Lanthanum hexaboride-based refractory spectrally selective thermal emitter is proposed, fabricated, and characterized at high temperature in both vacuum and ambient air. The thermal emission resonantly enhanced by a planar Gires-Tournois resonator exhibits an extremely narrow full width at half maximum of ~62 nm. Owing to the high refractory properties of lanthanum hexaboride and the effective structural design, the proposed emitter sustains excellent optical characteristic stability and resistance to oxidation at elevated temperature. The emissive and refractory performance at high temperatures of the emitter using lanthanum hexaboride are investigated and compared to those using other refractory metals including tungsten, molybdenum, and tantalum to access their viability for robust high-temperature spectroscopic infrared heaters for the applications in thermophotovoltaics as well as in drying furnaces.