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    • 1. 发明申请
    • ORGANIC LIGHT-EMITTING ELEMENT AND LIGHT-EMITTING DEVICE USING THE SAME
    • 有机发光元件和使用该发光元件的发光元件
    • US20100155711A1
    • 2010-06-24
    • US12638766
    • 2009-12-15
    • Toshinori HasegawaNaoto NakamuraMasato YajimaRyota Watanabe
    • Toshinori HasegawaNaoto NakamuraMasato YajimaRyota Watanabe
    • H01L51/50H01L33/00
    • H01L51/5265H01L27/3211H01L51/0059
    • An organic light-emitting element includes a first electrode, a second electrode, and at least one organic compound layer disposed between the first electrode and the second electrode. The organic compound layer includes a light-emitting layer containing a light-emitting material and being configured to emit light toward the first electrode and the second electrode. The light emitted toward the first electrode is reflected from a reflection plane located at the first electrode to cause interference with the light emitted toward the second electrode. The interference provides an interference intensity distribution having a maximum peak at a wavelength λ1. The light-emitting material of the light-emitting layer exhibits a photoluminescence spectrum having a maximum peak at a wavelength λ2. The organic light-emitting element produces an electroluminescence spectrum having a maximum peak at a wavelength λ3. These wavelengths satisfy the relationships: λ2≠λ3 and |λ2−λ3|
    • 有机发光元件包括第一电极,第二电极和设置在第一电极和第二电极之间的至少一个有机化合物层。 有机化合物层包括含有发光材料并被配置为朝向第一电极和第二电极发光的发光层。 朝向第一电极发射的光从位于第一电极的反射平面反射,以引起对朝向第二电极发射的光的干扰。 干扰提供在波长λ1具有最大峰值的干涉强度分布。 发光层的发光材料具有在波长λ2具有最大峰值的光致发光光谱。 有机发光元件产生在波长λ3具有最大峰值的电致发光光谱。 这些波长满足关系:λ2≠λ3和|λ2-λ3| <|λ2-λ1|。
    • 2. 发明授权
    • Organic light-emitting element and light-emitting device using the same
    • 有机发光元件和使用其的发光装置
    • US08188500B2
    • 2012-05-29
    • US12638766
    • 2009-12-15
    • Toshinori HasegawaNaoto NakamuraMasato YajimaRyota Watanabe
    • Toshinori HasegawaNaoto NakamuraMasato YajimaRyota Watanabe
    • H01L33/10H01L33/26H01L33/42
    • H01L51/5265H01L27/3211H01L51/0059
    • An organic light-emitting element includes a first electrode, a second electrode, and at least one organic compound layer disposed between the first electrode and the second electrode. The organic compound layer includes a light-emitting layer containing a light-emitting material and being configured to emit light toward the first electrode and the second electrode. The light emitted toward the first electrode is reflected from a reflection plane located at the first electrode to cause interference with the light emitted toward the second electrode. The interference provides an interference intensity distribution having a maximum peak at a wavelength λ1. The light-emitting material of the light-emitting layer exhibits a photoluminescence spectrum having a maximum peak at a wavelength λ2. The organic light-emitting element produces an electroluminescence spectrum having a maximum peak at a wavelength λ3. These wavelengths satisfy the relationships: λ2≠λ3 and |λ2−λ3|
    • 有机发光元件包括第一电极,第二电极和设置在第一电极和第二电极之间的至少一个有机化合物层。 有机化合物层包括含有发光材料并被配置为朝向第一电极和第二电极发光的发光层。 朝向第一电极发射的光从位于第一电极的反射平面反射,以引起对朝向第二电极发射的光的干扰。 干扰提供在波长λ1具有最大峰值的干涉强度分布。 发光层的发光材料具有在波长λ2具有最大峰值的光致发光光谱。 有机发光元件产生在波长λ3具有最大峰值的电致发光光谱。 这些波长满足关系:λ2≠λ3和|λ2-λ3| <|λ2-λ1|。
    • 3. 发明授权
    • Subscriber premises-side optical network unit
    • 用户房屋侧光网络单元
    • US08509614B2
    • 2013-08-13
    • US13253777
    • 2011-10-05
    • Nobuhiko HattoriNaoto Nakamura
    • Nobuhiko HattoriNaoto Nakamura
    • H04B10/08H04B17/00
    • H04B10/272H04Q2213/1301
    • [Problem]This invention aims at solving the problem of how a subscriber premises-side optical network unit can be switched to an evaluation mode without the use of a jig board.[Means for Solving the Problem]The invention refers to a subscriber premises-side optical network unit (ONU 10) which is connected to a center-side optical network unit (OLT 1a) via an optical transmission line (optical fiber 2, 4) and to an external device (switch 6) via an electric signal line (electric signal line 5); comprising a memory (memory switch 15a) the stored content of which can be directly or indirectly rewritten by the external device; a detection part (CPU 15) for detecting that the content of the memory has been rewritten; and a control part (CPU 15) for performing, when the detection part detects that the stored content of the memory has been rewritten, a control whereby the optical sending part which sends optical signals to the optical transmission line is put into a continuous light emission state.
    • 本发明旨在解决用户住宅侧光网络单元如何在不使用夹具板的情况下切换到评估模式的问题。 解决问题的手段本发明涉及经由光传输线路(光纤2,4)与中心侧光网络单元(OLT 1​​a)连接的用户住宅侧光网络单元(ONU10) 并通过电信号线(电信号线5)与外部装置(开关6)连接。 包括其存储内容可以由外部设备直接或间接重写的存储器(存储器开关15a); 用于检测存储器的内容已经被重写的检测部分(CPU 15) 以及控制部(CPU15),用于当检测部检测到存储器的存储内容已被重写时,执行将向光传输线发送光信号的光发送部分进行连续发光的控制 州。
    • 4. 发明授权
    • Semiconductor device producing method, substrate producing method and substrate processing apparatus
    • 半导体装置的制造方法,基板的制造方法以及基板处理装置
    • US08268731B2
    • 2012-09-18
    • US11887347
    • 2006-03-30
    • Naoto NakamuraIwao NakamuraRyota Sasajima
    • Naoto NakamuraIwao NakamuraRyota Sasajima
    • H01L21/31
    • H01L21/02238H01L21/31662H01L21/67109
    • Disclosed is a producing method of a semiconductor device, including: loading a substrate into a reaction tube; oxidizing the substrate under an atmospheric pressure by supplying a plurality of kinds of gases which react with each other and an inert gas into the reaction tube; and unloading, from the reaction tube, the substrate after the oxidizing, wherein in the oxidizing, a flow rate of the inert gas is varied in accordance with a variation of the atmospheric pressure to keep constant a partial pressure of an oxidizing gas or partial pressures of oxidizing gases in the reaction tube, and the flow rate of the inert gas is calculated based on a pre-calculated flow rate of a gas or pre-calculated flow rates of gases produced by reaction of the plurality of gases and a pre-calculated flow rate of a gas which is not consumed by the reaction and which remains or pre-calculated flow rates of gases which are not consumed by the reaction and which remain.
    • 公开了一种半导体器件的制造方法,包括:将基板装载到反应管中; 通过将多种彼此反应的气体和惰性气体供应到反应管中,在大气压下氧化基板; 并且在氧化之后从反应管中卸载基板,其中在氧化中,惰性气体的流量根据大气压力的变化而变化,以保持氧化气体的分压或分压 的反应管中的氧化气体,并且惰性气体的流量基于气体的预先计算的流量或通过多个气体的反应产生的预先计算的气体流量和预先计算的 未被反应消耗的气体的流速,并且保留或预先计算的未被反应消耗并保留的气体的流速。
    • 5. 发明申请
    • Subscriber Premises-Side Optical Network Unit
    • 用户端光网络单元
    • US20120087663A1
    • 2012-04-12
    • US13253777
    • 2011-10-05
    • Nobuhiko HattoriNaoto Nakamura
    • Nobuhiko HattoriNaoto Nakamura
    • H04J14/00
    • H04B10/272H04Q2213/1301
    • [Problem]This invention aims at solving the problem of how a subscriber premises-side optical network unit can be switched to an evaluation mode without the use of a jig board.[Means for Solving the Problem]The invention refers to a subscriber premises-side optical network unit (ONU 10) which is connected to a center-side optical network unit (OLT 1a) via an optical transmission line (optical fiber 2, 4) and to an external device (switch 6) via an electric signal line (electric signal line 5); comprising a memory (memory switch 15a) the stored content of which can be directly or indirectly rewritten by the external device; a detection part (CPU 15) for detecting that the content of the memory has been rewritten; and a control part (CPU 15) for performing, when the detection part detects that the stored content of the memory has been rewritten, a control whereby the optical sending part which sends optical signals to the optical transmission line is put into a continuous light emission state.
    • 本发明旨在解决用户住宅侧光网络单元如何在不使用夹具板的情况下切换到评估模式的问题。 解决问题的手段本发明涉及经由光传输线路(光纤2,4)与中心侧光网络单元(OLT 1​​a)连接的用户住宅侧光网络单元(ONU10) 并通过电信号线(电信号线5)与外部装置(开关6)连接。 包括其存储内容可以由外部设备直接或间接重写的存储器(存储器开关15a); 用于检测存储器的内容已经被重写的检测部分(CPU 15) 以及控制部(CPU15),用于当检测部检测到存储器的存储内容已被重写时,执行将向光传输线发送光信号的光发送部分进行连续发光的控制 州。
    • 6. 发明授权
    • Multicolor organic light emitting apparatus
    • 多色有机发光装置
    • US07518141B2
    • 2009-04-14
    • US11691682
    • 2007-03-27
    • Naoto Nakamura
    • Naoto Nakamura
    • H01L35/24
    • H01L51/5265H01L27/3211
    • Provided is a multicolor organic light emitting apparatus having a plurality of organic light emitting devices formed on a substrate, for emitting two or more types of luminescent colors. A thickness of a layer formed between a light emitting layer and a reflection surface of a cathode is the same as that of each of first and second organic light emitting devices, and an optical distance between a light emitting surface of each of the light emitting layers and the reflection surface of the cathode is adjusted such that each thickness of the light emitting layers is varied to enhance light emitted from the light emitting layers by optical interference.
    • 提供了一种多色有机发光装置,其具有形成在基板上的多个有机发光器件,用于发射两种或更多种类型的发光颜色。 在发光层和阴极的反射面之间形成的层的厚度与第一和第二有机发光器件的厚度相同,并且每个发光层的发光表面之间的光学距离 并且调整阴极的反射表面,使得发光层的每个厚度都被改变,以通过光学干涉来增强从发光层发射的光。
    • 7. 发明申请
    • MULTICOLOR ORGANIC LIGHT EMITTING APPARATUS
    • MULTICOLOR有机发光装置
    • US20070228367A1
    • 2007-10-04
    • US11691682
    • 2007-03-27
    • Naoto Nakamura
    • Naoto Nakamura
    • H01L29/08
    • H01L51/5265H01L27/3211
    • Provided is a multicolor organic light emitting apparatus having a plurality of organic light emitting devices formed on a substrate, for emitting two or more types of luminescent colors. A thickness of a layer formed between a light emitting layer and a reflection surface of a cathode is the same as that of each of first and second organic light emitting devices, and an optical distance between a light emitting surface of each of the light emitting layers and the reflection surface of the cathode is adjusted such that each thickness of the light emitting layers is varied to enhance light emitted from the light emitting layers by optical interference.
    • 提供了一种多色有机发光装置,其具有形成在基板上的多个有机发光器件,用于发射两种或更多种类型的发光颜色。 在发光层和阴极的反射面之间形成的层的厚度与第一和第二有机发光器件的厚度相同,并且每个发光层的发光表面之间的光学距离 并且调整阴极的反射表面,使得发光层的每个厚度都被改变,以通过光学干涉来增强从发光层发射的光。