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    • 1. 发明申请
    • METALLIC STRUCTURE AND PHOTODETECTOR
    • 金属结构和光电转换器
    • US20110266414A1
    • 2011-11-03
    • US13179168
    • 2011-07-08
    • Kosei UENOHiroaki MisawaDai OhnishiTakui SakaguchiYoichi Mugino
    • Kosei UENOHiroaki MisawaDai OhnishiTakui SakaguchiYoichi Mugino
    • H01J40/00B82Y20/00
    • G01J1/02B22F1/0018B22F1/0096B22F2001/0037B82Y30/00C22C5/02Y10T428/2982Y10T428/2991Y10T428/2993Y10T428/2995Y10T428/2996Y10T428/2998
    • In a metallic structure including a metallic nano-chain with plasmon resonance absorption, a metallic nanoparticle forming the metallic nano-chain is formed in a circular, triangle, or rhomboid shape. The wavelength selectivity can be increased also by forming a closed region by mutually linking all of metallic nanoparticles that are mutually linked with bottlenecks. In a photodetector, a photodetection unit including a current detection probe, a nano-chain unit, and a current detection probe is arranged on a substrate. The nano-chain unit is a metallic structure with plasmon resonance absorption, where metallic nanoparticles are mutually linked with bottlenecks. Each current detection probe has a corner whose tip is formed with a predetermined angle, and this corner is arranged to face the tip of the nano-chain unit, i.e., a corner of the metallic nanoparticle. Photodetection with high wavelength selectivity is performed based on a change in the initial voltage of the current-voltage characteristic.
    • 在包括具有等离子体共振吸收的金属纳米链的金属结构中,形成金属纳米链的金属纳米颗粒形成为圆形,三角形或菱形。 波长选择性也可以通过相互连接与瓶颈相互连接的所有金属纳米颗粒形成闭合区域来增加。 在光电检测器中,在基板上设置包括电流检测探针,纳米链单元和电流检测探针的光检测单元。 纳米链单元是具有等离子体共振吸收的金属结构,其中金属纳米颗粒与瓶颈相互联系。 每个电流检测探针具有尖端以预定角度形成的角部,并且该角部布置成面对纳米链单元的尖端,即金属纳米颗粒的角部。 基于电流 - 电压特性的初始电压的变化来执行具有高波长选择性的光检测。
    • 2. 发明申请
    • Plasmon resonance detector
    • 等离子体共振检测器
    • US20100067016A1
    • 2010-03-18
    • US12318109
    • 2008-12-22
    • Kosei UENOHiroaki MISAWADai OHNISHITakui SAKAGUCHIYoichi MUGINO
    • Kosei UENOHiroaki MISAWADai OHNISHITakui SAKAGUCHIYoichi MUGINO
    • G01N21/55G01K7/02
    • G01J5/20G01J5/02G01J5/023G01J5/08G01J5/0853
    • Provided is a plasmon resonance detector that can detect temperature change in optical devices, in which the metal structure having plasmon resonance absorption is used for the optical devices. A diode formed of a conductive substrate, an n-type semiconductor layer, an i-type semiconductor layer, a p-type semiconductor layer, an n electrode (negative electrode), a p electrode (positive electrode), an insulating film, or the like is used as a semiconductor device whose resistance value changes in accordance with temperature change. A nanochain formed by connecting a plurality of metal nanoparticles is disposed on this diode. When the nanochain is irradiated with light, the nanochain generates heat. The heat generated in the nanochain is conducted to the diode. The resistance value of the diode changes in accordance with temperature change, and thus this change is read, a temperature or an amount of heat generation of the nanochain is measured, and existence and strength of the plasmon resonance are detected.
    • 提供了一种等离子体共振检测器,其可以检测具有等离子体共振吸收的金属结构用于光学器件的光学器件中的温度变化。 由导电性基板,n型半导体层,i型半导体层,p型半导体层,n电极(负极),ap电极(正极),绝缘膜或 类似物被用作其电阻值根据温度变化而变化的半导体器件。 通过连接多个金属纳米颗粒形成的纳米链设置在该二极管上。 当纳米链被光照射时,纳米链产生热量。 在纳米链中产生的热量传导到二极管。 二极管的电阻值根据温度变化而变化,因此读取该变化,测定纳米级的发热温度或发热量,检测等离子体共振的存在和强度。