NEAR-INFRARED LIGHT EMITTING DEVICE, SPECTROSCOPIC DEVICE, AND SPECTROSCOPY
A near-infrared light emitting device (100) is configured to satisfy the relationship 0.853MVIS MNIR < 1.147MVIS, MVIS is the ratio of Imax-VIS-150 to Imax-VIS-30, Imax-VIS-30 is the maximum fluorescence intensity value of the visible fluorescent component when the temperature of a wavelength c...
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| Format | Patent |
| Language | English French Japanese |
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02.08.2024
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| Abstract | A near-infrared light emitting device (100) is configured to satisfy the relationship 0.853MVIS MNIR < 1.147MVIS, MVIS is the ratio of Imax-VIS-150 to Imax-VIS-30, Imax-VIS-30 is the maximum fluorescence intensity value of the visible fluorescent component when the temperature of a wavelength converter (2) is 30°C, Imax-VIS-150 is the maximum fluorescence intensity value of the visible fluorescent component when the temperature of the wavelength converter (2) is 150°C, MNIR is the ratio of Imax-NIR-150 to Imax-NIR-30, Imax-NIR-30 is the maximum fluorescence intensity value of the near-infrared fluorescent component when the temperature of the wavelength converter (2) is 30°C, and Imax-NIR-150 is the maximum fluorescence intensity value of the near-infrared fluorescent component when the temperature of the wavelength converter (2) is 150°C.
L'invention concerne un dispositif électroluminescent proche infrarouge (100) qui est configuré pour satisfaire à la relation 0,853MVIS MNIR < 1,147MVIS, MVIS est le rapport de IImax-VIS-150 à Imax-VIS-30, Imax-VIS-30 est la valeur d'intensité de fluorescence maximale du composant fluorescent visible lorsque la température d'un convertisseur de longueur d'onde (2) est de 30°C, Imax-VIS-150 est la valeur d'intensité de fluorescence maximale du composant fluorescent visible lorsque la température du convertisseur de longueur d'onde (2) est de 150°C, MNIR est le rapport de Imax-NIR-150 à Imax-NIR-30, Imax-NIR-30 est la valeur d'intensité de fluorescence maximale du composant fluorescent proche infrarouge lorsque la température du convertisseur de longueur d'onde (2) est de 30°C, et Imax-NIR-150 est la valeur d'intensité de fluorescence maximale du composant fluorescent proche infrarouge lorsque la température du convertisseur de longueur d'onde (2) est de 150°C.
近赤外線発光装置(100)は、0.853MVIS≦MNIR<1.147MVISの関係を満たすように構成されており、MVISはImax-VIS-30に対するImax-VIS-150の割合であり、Imax-VIS-30は波長変換体(2)の温度が30℃の場合における可視蛍光成分の蛍光強度最大値であり、Imax-VIS-150は波長変換体2の温度が150℃の場合における可視蛍光成分の蛍光強度最大値であり、MNIRはImax-NIR-30に対するImax-NIR-150の割合であり、Imax-NIR-30は波長変換体2の温度が30℃の場合における近赤外蛍光成分の蛍光強度最大値であり、Imax-NIR-150は波長変換体(2)の温度が150℃の場合における近赤外蛍光成分の蛍光強度最大値である。 |
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| AbstractList | A near-infrared light emitting device (100) is configured to satisfy the relationship 0.853MVIS MNIR < 1.147MVIS, MVIS is the ratio of Imax-VIS-150 to Imax-VIS-30, Imax-VIS-30 is the maximum fluorescence intensity value of the visible fluorescent component when the temperature of a wavelength converter (2) is 30°C, Imax-VIS-150 is the maximum fluorescence intensity value of the visible fluorescent component when the temperature of the wavelength converter (2) is 150°C, MNIR is the ratio of Imax-NIR-150 to Imax-NIR-30, Imax-NIR-30 is the maximum fluorescence intensity value of the near-infrared fluorescent component when the temperature of the wavelength converter (2) is 30°C, and Imax-NIR-150 is the maximum fluorescence intensity value of the near-infrared fluorescent component when the temperature of the wavelength converter (2) is 150°C.
L'invention concerne un dispositif électroluminescent proche infrarouge (100) qui est configuré pour satisfaire à la relation 0,853MVIS MNIR < 1,147MVIS, MVIS est le rapport de IImax-VIS-150 à Imax-VIS-30, Imax-VIS-30 est la valeur d'intensité de fluorescence maximale du composant fluorescent visible lorsque la température d'un convertisseur de longueur d'onde (2) est de 30°C, Imax-VIS-150 est la valeur d'intensité de fluorescence maximale du composant fluorescent visible lorsque la température du convertisseur de longueur d'onde (2) est de 150°C, MNIR est le rapport de Imax-NIR-150 à Imax-NIR-30, Imax-NIR-30 est la valeur d'intensité de fluorescence maximale du composant fluorescent proche infrarouge lorsque la température du convertisseur de longueur d'onde (2) est de 30°C, et Imax-NIR-150 est la valeur d'intensité de fluorescence maximale du composant fluorescent proche infrarouge lorsque la température du convertisseur de longueur d'onde (2) est de 150°C.
近赤外線発光装置(100)は、0.853MVIS≦MNIR<1.147MVISの関係を満たすように構成されており、MVISはImax-VIS-30に対するImax-VIS-150の割合であり、Imax-VIS-30は波長変換体(2)の温度が30℃の場合における可視蛍光成分の蛍光強度最大値であり、Imax-VIS-150は波長変換体2の温度が150℃の場合における可視蛍光成分の蛍光強度最大値であり、MNIRはImax-NIR-30に対するImax-NIR-150の割合であり、Imax-NIR-30は波長変換体2の温度が30℃の場合における近赤外蛍光成分の蛍光強度最大値であり、Imax-NIR-150は波長変換体(2)の温度が150℃の場合における近赤外蛍光成分の蛍光強度最大値である。 |
| Author | NITTA Mitsuru FUJIWARA Chigusa OSHIO Shozo SHIGITANI Ryosuke ABE Takeshi IWATA Koki |
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| DocumentTitleAlternate | DISPOSITIF ÉLECTROLUMINESCENT PROCHE INFRAROUGE, DISPOSITIF SPECTROSCOPIQUE ET SPECTROSCOPIE 近赤外線発光装置、分光装置、及び、分光法 |
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| Snippet | A near-infrared light emitting device (100) is configured to satisfy the relationship 0.853MVIS MNIR < 1.147MVIS, MVIS is the ratio of Imax-VIS-150 to... |
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| Title | NEAR-INFRARED LIGHT EMITTING DEVICE, SPECTROSCOPIC DEVICE, AND SPECTROSCOPY |
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