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    • 1. 发明授权
    • Slot waveguide for color display
    • 槽波导用于彩色显示
    • US07925122B2
    • 2011-04-12
    • US12215330
    • 2008-06-25
    • Kenneth A. DiestJennifer A. DionneHarry A. AtwaterHenri Lezec
    • Kenneth A. DiestJennifer A. DionneHarry A. AtwaterHenri Lezec
    • G02F1/01
    • G02F1/035G02F1/133516G02F2001/213G02F2202/20G02F2202/42G02F2203/055G02F2203/10G02F2203/34
    • A slot waveguide utilized as a color-selecting element. The slot waveguide includes a first layer of plasmon supporting material, the first layer being optically opaque and having an input slit extending through the first layer; a second layer of plasmon supporting material facing the first layer and separated from the first layer by a first distance in a first direction, the second layer being optically opaque and having an output slit extending through the second layer and separated from the input slit by a second distance extending along a second direction differing from first direction; a dielectric layer interposed between the first layer and the second layer, the dielectric layer having a real or complex refractive index; and a power source electrically coupled to the first layer and the second layer to apply an electrical signal for modulation of the real or complex refractive index of the dielectric layer.
    • 用作选色元件的槽波导。 槽波导包括第一层等离子体支撑材料层,第一层是光学不透明的并且具有延伸穿过第一层的输入狭缝; 第二层等离子体支撑材料面向第一层并且在第一方向上与第一层分离第一距离,第二层是光学不透明的,并且具有延伸穿过第二层并且与输入狭缝分离的输出狭缝 沿着与第一方向不同的第二方向延伸的第二距离; 介于所述第一层和所述第二层之间的电介质层,所述电介质层具有实际或复合折射率; 以及电耦合到第一层和第二层的电源,以施加用于调制电介质层的实际或复合折射率的电信号。
    • 2. 发明授权
    • Plasmostor: a-metal-oxide-si field effect plasmonic modulator
    • 喷砂机:a-metal-oxide-si场效应等离子体激元调制器
    • US07693363B2
    • 2010-04-06
    • US12410419
    • 2009-03-24
    • Jennifer A. DionneKenneth A. DiestLuke SweatlockHarry A. Atwater
    • Jennifer A. DionneKenneth A. DiestLuke SweatlockHarry A. Atwater
    • G02B6/12
    • G02F1/025G02F2203/10
    • The invention is a system and method for performing all-optical modulation. A semiconductor layer having a defined thickness has an insulator adjacent one surface of the semiconductor. Conductive layers are provided adjacent the semiconductor layer and the insulator. A photodetector is provided to generate an electric field across the conductive layers in response to an input optical gate signal. An input optical signal is modulated by interaction with a plasmon wave generated at the semiconductor/conductive layer interface. By defining the thickness of the semiconductor layer, a desired wavelength of light supports the plasmon waves. Operation of the all-optical modulator requires the provision of an input optical signal of a desired wavelength and the provision of a gate optical signal. An output optical signal is recovered and can be used to store, display or transmit information, for example over a fiber optic communication system, such as a telecommunication system.
    • 本发明是用于执行全光调制的系统和方法。 具有限定厚度的半导体层具有邻近半导体一个表面的绝缘体。 在半导体层和绝缘体附近设置导电层。 提供光电检测器以响应于输入光栅信号而在导电层两端产生电场。 通过与在半导体/导电层界面处产生的等离子体波相互作用来调制输入光信号。 通过限定半导体层的厚度,期望的光波长支持等离子体波。 全光调制器的操作需要提供期望波长的输入光信号和提供门光信号。 输出光信号被恢复并且可以用于存储,显示或发送信息,例如通过诸如电信系统的光纤通信系统。
    • 4. 发明申请
    • Slot waveguide for color display
    • 槽波导用于彩色显示
    • US20100002979A1
    • 2010-01-07
    • US12215330
    • 2008-06-25
    • Kenneth A. DiestJennifer A. DionneHarry A. AtwaterHenri Lezec
    • Kenneth A. DiestJennifer A. DionneHarry A. AtwaterHenri Lezec
    • G02F1/035G02B6/10
    • G02F1/035G02F1/133516G02F2001/213G02F2202/20G02F2202/42G02F2203/055G02F2203/10G02F2203/34
    • A slot waveguide utilized as a color-selecting element. The slot waveguide includes a first layer of plasmon supporting material, the first layer being optically opaque and having an input slit extending through the first layer; a second layer of plasmon supporting material facing the first layer and separated from the first layer by a first distance in a first direction, the second layer being optically opaque and having an output slit extending through the second layer and separated from the input slit by a second distance extending along a second direction differing from first direction; a dielectric layer interposed between the first layer and the second layer, the dielectric layer having a real or complex refractive index; and a power source electrically coupled to the first layer and the second layer to apply an electrical signal for modulation of the real or complex refractive index of the dielectric layer.
    • 用作选色元件的槽波导。 槽波导包括第一层等离子体支撑材料层,第一层是光学不透明的并且具有延伸穿过第一层的输入狭缝; 第二层等离子体支撑材料面向第一层并且在第一方向上与第一层分离第一距离,第二层是光学不透明的,并且具有延伸穿过第二层并且与输入狭缝分离的输出狭缝 沿着与第一方向不同的第二方向延伸的第二距离; 介于所述第一层和所述第二层之间的电介质层,所述电介质层具有实际或复合折射率; 以及电耦合到第一层和第二层的电源,以施加用于调制电介质层的实际或复合折射率的电信号。
    • 5. 发明申请
    • PLASMOSTOR: A-METAL-OXIDE-SI FIELD EFFECT PLASMONIC MODULATOR
    • PLASMOSTOR:A-METAL-OXIDE-SI FIELD EFFECT PLASMONIC MODULATOR
    • US20090273820A1
    • 2009-11-05
    • US12410419
    • 2009-03-24
    • Jennifer A. DionneKenneth A. DiestLuke SweatlockHarry A. Atwater
    • Jennifer A. DionneKenneth A. DiestLuke SweatlockHarry A. Atwater
    • G06E3/00G02F1/00
    • G02F1/025G02F2203/10
    • The invention is a system and method for performing all-optical modulation. A semiconductor layer having a defined thickness has an insulator adjacent one surface of the semiconductor. Conductive layers are provided adjacent the semiconductor layer and the insulator. A photodetector is provided to generate an electric field across the conductive layers in response to an input optical gate signal. An input optical signal is modulated by interaction with a plasmon wave generated at the semiconductor/conductive layer interface. By defining the thickness of the semiconductor layer, a desired wavelength of light supports the plasmon waves. Operation of the all-optical modulator requires the provision of an input optical signal of a desired wavelength and the provision of a gate optical signal. An output optical signal is recovered and can be used to store, display or transmit information, for example over a fiber optic communication system, such as a telecommunication system.
    • 本发明是用于执行全光调制的系统和方法。 具有限定厚度的半导体层具有邻近半导体一个表面的绝缘体。 在半导体层和绝缘体附近设置导电层。 提供光电检测器以响应于输入光栅信号而在导电层两端产生电场。 通过与在半导体/导电层界面处产生的等离子体波相互作用来调制输入光信号。 通过限定半导体层的厚度,期望的光波长支持等离子体波。 全光调制器的操作需要提供期望波长的输入光信号和提供门光信号。 输出光信号被恢复并且可以用于存储,显示或发送信息,例如通过诸如电信系统的光纤通信系统。