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KAKEN_16K14137seika.pdf
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Download
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:2.2 MB
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| Last updated |
:Nov 12, 2018 |
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Total downloads since Nov 12, 2018 : 369
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光共振援用による次世代光学素子の高能率超精密加工への挑戦
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| Kana |
ヒカリ キョウシン エンヨウ ニ ヨル ジセダイ コウガク ソシ ノ コウノウリツ チョウセイミツ カコウ エノ チョウセン
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Hikari kyōshin enyō ni yoru jisedai kōgaku soshi no kōnōritsu chōseimitsu kakō eno chōsen
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Challenge to highly-efficient ultra-precision machining for next-generation optical element by assisting optical resonance
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柿沼, 康弘
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カキヌマ, ヤスヒロ
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Kakinuma, Yasuhiro
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慶應義塾大学・理工学部・准教授
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Research team head
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科研費研究者番号 : 70407146
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2018
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科学研究費補助金研究成果報告書
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2017
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従来の光学材料における機械加工をより高精度かつ高能率にすることを目的として, 本研究では光共振と近接場光を援用した光学素子の超精密加工法に関する研究を実施した。光学材料表面に発生させた近接場に微小工具を近づけ, 光エネルギを工具先端に集中させることで, アブレーションを生じさせながら切削加工を行う加工方法の開発に成功した.微小径エンドミル加工試験の結果, 近接場光援用により光学材料を低切削力で加工できることを実験的に示した。
In order to machine optical materials with higher accuracy and higher efficiency, the research on ultra-precision machining by assisting optical resonance and near-field light has been conducted. A novel micro-machining method performing ablation simultaneously has been successfully developed by assisting near-field light and focusing the light to micro-tool edge. From the result of micro end-milling test, it is clear that near-field light assisted machining makes cutting force lower, compared with general micro-machining.
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研究種目 : 挑戦的萌芽研究
研究期間 : 2016~2017
課題番号 : 16K14137
研究分野 : 生産加工
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