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    BARIUM FLUORIDE SINTERED COMPACT, LANTHANUM FLUORIDE-DOPED BARIUM FLUORIDE SINTERED COMPACT, MANUFACTURING METHOD OF BARIUM FLUORIDE PARTICLE, MANUFACTURING METHOD OF BARIUM FLUORIDE SINTERED COMPACT, MANUFACTURING METHOD OF LANTHANUM FLUORIDE-DOPED BARIUM FLUORIDE PARTICLE, MANUFACTURING METHOD OF LANTHANUM FLUORIDE-DOPED BARIUM FLUORIDE SINTERED COMPACT, OPTICAL ELEMENT, OPTICAL SYSTEM, INTERCHANGEABLE LENS, AND OPTICAL APPARATUS

    Neue Suche nach: EZURA YOSHINOBU
    Neue Suche nach: ISHIZAWA HITOSHI

    To provide a transparent material having similar optical transmissivity to that of monocrystalline of barium fluoride.SOLUTION: Barium fluoride sintered compact has transmissivity of 85% or more to light of 550 nm wavelength and transmissivity of 80% or more to light of a range of 340 nm or longer and 2000 nm or shorter and to light of a range of 4.5 μm or longer and 10.5 μm or shorter.SELECTED DRAWING: Figure 6

    【課題】フッ化バリウムの単結晶と同様な光学的透過率を有する透明材料を得る。【解決手段】フッ化バリウム焼結体は、550nmの波長の光に対する透過率が85%以上であり、340nm以上2000nm以下の範囲の波長の光と、4.5μm以上10.5μm以下の範囲の波長の光に対する透過率が80%以上である。【選択図】図6

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    BARIUM FLUORIDE SINTERED COMPACT, LANTHANUM FLUORIDE-DOPED BARIUM FLUORIDE SINTERED COMPACT, MANUFACTURING METHOD OF BARIUM FLUORIDE PARTICLE, MANUFACTURING METHOD OF BARIUM FLUORIDE SINTERED COMPACT, MANUFACTURING METHOD OF LANTHANUM FLUORIDE-DOPED BARIUM FLUORIDE PARTICLE, MANUFACTURING METHOD OF LANTHANUM FLUORIDE-DOPED BARIUM FLUORIDE SINTERED COMPACT, OPTICAL ELEMENT, OPTICAL SYSTEM, INTERCHANGEABLE LENS, AND OPTICAL APPARATUS

    Neue Suche nach: EZURA YOSHINOBU
    Neue Suche nach: ISHIZAWA HITOSHI

    To provide a transparent material having similar optical transmissivity to that of monocrystalline of barium fluoride.SOLUTION: Barium fluoride sintered compact has transmissivity of 85% or more to light of 550 nm wavelength and transmissivity of 80% or more to light of a range of 340 nm or longer and 2000 nm or shorter and to light of a range of 4.5 μm or longer and 10.5 μm or shorter.SELECTED DRAWING: Figure 6

    【課題】フッ化バリウムの単結晶と同様な光学的透過率を有する透明材料を得る。【解決手段】フッ化バリウム焼結体は、550nmの波長の光に対する透過率が85%以上であり、340nm以上2000nm以下の範囲の波長の光と、4.5μm以上10.5μm以下の範囲の波長の光に対する透過率が80%以上である。【選択図】図6

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    BARIUM FLUORIDE SINTERED COMPACT, LANTHANUM FLUORIDE-DOPED BARIUM FLUORIDE SINTERED COMPACT, MANUFACTURING METHOD OF BARIUM FLUORIDE PARTICLE, MANUFACTURING METHOD OF BARIUM FLUORIDE SINTERED COMPACT, MANUFACTURING METHOD OF LANTHANUM FLUORIDE-DOPED BARIUM FLUORIDE PARTICLE, MANUFACTURING METHOD OF LANTHANUM FLUORIDE-DOPED BARIUM FLUORIDE SINTERED COMPACT, OPTICAL ELEMENT, OPTICAL SYSTEM, INTERCHANGEABLE LENS, AND OPTICAL APPARATUS

    Neue Suche nach: EZURA YOSHINOBU
    Neue Suche nach: ISHIZAWA HITOSHI

    To provide a transparent material having similar optical transmissivity to that of monocrystalline of barium fluoride.SOLUTION: Barium fluoride sintered compact has transmissivity of 85% or more to light of 550 nm wavelength and transmissivity of 80% or more to light of a range of 340 nm or longer and 2000 nm or shorter and to light of a range of 4.5 μm or longer and 10.5 μm or shorter.SELECTED DRAWING: Figure 6

    【課題】フッ化バリウムの単結晶と同様な光学的透過率を有する透明材料を得る。【解決手段】フッ化バリウム焼結体は、550nmの波長の光に対する透過率が85%以上であり、340nm以上2000nm以下の範囲の波長の光と、4.5μm以上10.5μm以下の範囲の波長の光に対する透過率が80%以上である。【選択図】図6

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    BARIUM FLUORIDE SINTERED COMPACT, LANTHANUM FLUORIDE-DOPED BARIUM FLUORIDE SINTERED COMPACT, MANUFACTURING METHOD OF BARIUM FLUORIDE PARTICLE, MANUFACTURING METHOD OF BARIUM FLUORIDE SINTERED COMPACT, MANUFACTURING METHOD OF LANTHANUM FLUORIDE-DOPED BARIUM FLUORIDE PARTICLE, MANUFACTURING METHOD OF LANTHANUM FLUORIDE-DOPED BARIUM FLUORIDE SINTERED COMPACT, OPTICAL ELEMENT, OPTICAL SYSTEM, INTERCHANGEABLE LENS, AND OPTICAL APPARATUS

    Weitere Titelangaben:

    フッ化バリウム焼結体、フッ化ランタンドープフッ化バリウム焼結体、フッ化バリウム粒子の製造方法、フッ化バリウム焼結体の製造方法、フッ化ランタンドープフッ化バリウム粒子の製造方法、フッ化ランタンドープフッ化バリウム焼結体の製造方法、光学素子、光学系、交換レンズおよび光学装置

    Beteiligte:

    EZURA YOSHINOBU (Autor:in) / ISHIZAWA HITOSHI (Autor:in)

    Erscheinungsdatum:

    02.12.2022

    Medientyp:

    Patent

    Format:

    Elektronische Ressource

    Sprache:

    Japanisch

    Klassifikation:

    IPC:  C04B Kalk , LIME / C01F COMPOUNDS OF THE METALS BERYLLIUM, MAGNESIUM, ALUMINIUM, CALCIUM, STRONTIUM, BARIUM, RADIUM, THORIUM, OR OF THE RARE-EARTH METALS , Verbindungen der Metalle Beryllium, Magnesium, Aluminium, Calcium, Strontium, Barium, Radium, Thorium oder der Seltenen Erden

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