Position-sensitive photodetector for plasmonic detection in a random metasurface

Carla N. Labastida, J. P. Cuanalo, Irving Gazga, Rubén Ramos, S. Mansurova, N. Korneev
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Abstract

In this work, we have developed a refractive index change sensing system utilizing localized surface plasmon resonance (LSPR) transduction, combined with a position-sensitive photodetector (PSPD). As the transducers, we utilized gold nano-islands formed through thermal annealing of an Au film with a nominal thickness of 13 nm. The LSPR was excited by evanescent wave in an attenuated total reflectance configuration. Refractive index changes result in modifications across the angular spectrum of LSPR, giving rise to variations in the differential signal detected between the two quadrants of the photodetector. We determined the refractive index resolution of our sensing system at different wavelengths and performed a comparative analysis with traditional surface plasmon resonance (SPR) transducers and available literature data. While LSPR transducers demonstrate a lower refractive index resolution (RIR) compared to SPR, the approach presented in this work stands out when compared to other LSPR sensing methods. Notably, at a wavelength of 785 nm, it achieves a remarkable RIR of 1.4 × 10−6 RIU.
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用于随机超表面等离子体探测的位置敏感光电探测器
在这项工作中,我们开发了一个折射率变化传感系统,利用局部表面等离子体共振(LSPR)转导,结合位置敏感光电探测器(PSPD)。作为换能器,我们利用了通过热退火形成的金纳米岛,其标称厚度为13nm。LSPR在衰减全反射结构下由倏逝波激发。折射率的变化导致LSPR的整个角谱的变化,从而引起光电探测器两个象限之间检测到的差分信号的变化。我们确定了传感系统在不同波长下的折射率分辨率,并与传统表面等离子体共振(SPR)换能器和现有文献数据进行了比较分析。虽然LSPR换能器与SPR相比具有较低的折射率分辨率(RIR),但与其他LSPR传感方法相比,本研究中提出的方法脱颖而出。值得注意的是,在785 nm波长处,RIR达到了1.4 × 10−6 RIU。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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