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    PYROELECTRIC MATERIAL, MANUFACTURING METHOD OF PYROELECTRIC MATERIAL, PYROELECTRIC ELEMENT, MANUFACTURING METHOD OF PYROELECTRIC ELEMENT, THERMOELECTRIC CONVERSION ELEMENT, MANUFACTURING METHOD OF THERMOELECTRIC CONVERSION ELEMENT, THERMAL PHOTODETECTOR, MANUFACTURING METHOD OF THERMAL PHOTODETECTOR, AND ELECTRONIC INSTRUMENT

    New search for: TSUCHIYA YASUSHI
    New search for: YONEMURA TAKAYUKI

    A pyroelectric material is constituted with an oxide containing iron, manganese, bismuth, and lanthanum, in which a ratio of the number of the manganese atoms to the sum of the number of the iron atoms, the number of the manganese atoms, and the number of titanium atoms is equal to or greater than 1.0 at % and equal to or less than 2.0 at %, and a ratio of the number of the titanium atoms to the sum of the number of the iron atoms, the number of the manganese atoms, and the number of the titanium atoms is equal to or greater than 0 at % and equal to or less than 4.0 at %.

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    PYROELECTRIC MATERIAL, MANUFACTURING METHOD OF PYROELECTRIC MATERIAL, PYROELECTRIC ELEMENT, MANUFACTURING METHOD OF PYROELECTRIC ELEMENT, THERMOELECTRIC CONVERSION ELEMENT, MANUFACTURING METHOD OF THERMOELECTRIC CONVERSION ELEMENT, THERMAL PHOTODETECTOR, MANUFACTURING METHOD OF THERMAL PHOTODETECTOR, AND ELECTRONIC INSTRUMENT

    New search for: TSUCHIYA YASUSHI
    New search for: YONEMURA TAKAYUKI

    A pyroelectric material is constituted with an oxide containing iron, manganese, bismuth, and lanthanum, in which a ratio of the number of the manganese atoms to the sum of the number of the iron atoms, the number of the manganese atoms, and the number of titanium atoms is equal to or greater than 1.0 at % and equal to or less than 2.0 at %, and a ratio of the number of the titanium atoms to the sum of the number of the iron atoms, the number of the manganese atoms, and the number of the titanium atoms is equal to or greater than 0 at % and equal to or less than 4.0 at %.

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    PYROELECTRIC MATERIAL, MANUFACTURING METHOD OF PYROELECTRIC MATERIAL, PYROELECTRIC ELEMENT, MANUFACTURING METHOD OF PYROELECTRIC ELEMENT, THERMOELECTRIC CONVERSION ELEMENT, MANUFACTURING METHOD OF THERMOELECTRIC CONVERSION ELEMENT, THERMAL PHOTODETECTOR, MANUFACTURING METHOD OF THERMAL PHOTODETECTOR, AND ELECTRONIC INSTRUMENT

    New search for: TSUCHIYA YASUSHI
    New search for: YONEMURA TAKAYUKI

    A pyroelectric material is constituted with an oxide containing iron, manganese, bismuth, and lanthanum, in which a ratio of the number of the manganese atoms to the sum of the number of the iron atoms, the number of the manganese atoms, and the number of titanium atoms is equal to or greater than 1.0 at % and equal to or less than 2.0 at %, and a ratio of the number of the titanium atoms to the sum of the number of the iron atoms, the number of the manganese atoms, and the number of the titanium atoms is equal to or greater than 0 at % and equal to or less than 4.0 at %.

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    Title:

    PYROELECTRIC MATERIAL, MANUFACTURING METHOD OF PYROELECTRIC MATERIAL, PYROELECTRIC ELEMENT, MANUFACTURING METHOD OF PYROELECTRIC ELEMENT, THERMOELECTRIC CONVERSION ELEMENT, MANUFACTURING METHOD OF THERMOELECTRIC CONVERSION ELEMENT, THERMAL PHOTODETECTOR, MANUFACTURING METHOD OF THERMAL PHOTODETECTOR, AND ELECTRONIC INSTRUMENT

    Contributors:

    TSUCHIYA YASUSHI (author) / YONEMURA TAKAYUKI (author)

    Publication date:

    2016-04-07

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    English

    Classification:

    IPC:  G01J Messen der Intensität, der Geschwindigkeit, der spektralen Zusammensetzung, der Polarisation, der Phase oder der Pulscharakteristik von infrarotem, sichtbarem oder ultraviolettem Licht , MEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRA-RED, VISIBLE OR ULTRA-VIOLET LIGHT / C04B Kalk , LIME / H01L Halbleiterbauelemente , SEMICONDUCTOR DEVICES

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