光电探测器
斯托克斯参量
超材料
光电子学
旋光计
极化(电化学)
探测器
红外线的
旋光法
等离子体子
光学
物理
炸薯条
材料科学
电信
计算机科学
散射
化学
物理化学
作者
Mingjin Dai,Chongwu Wang,Bo Qiang,Fakun Wang,Ming Ye,Song Han,Yu Luo,Qi Jie Wang
标识
DOI:10.1038/s41467-022-32309-w
摘要
Abstract On-chip polarimeters are highly desirable for the next-generation ultra-compact optical and optoelectronic systems. Polarization-sensitive photodetectors relying on anisotropic absorption of natural/artificial materials have emerged as a promising candidate for on-chip polarimeters owing to their filterless configurations. However, these photodetectors can only be applied for detection of either linearly or circularly polarized light, not applicable for full-Stokes detection. Here, we propose and demonstrate three-ports polarimeters comprising on-chip chiral plasmonic metamaterial-mediated mid-infrared photodetectors for full-Stokes detection. By manipulating the spatial distribution of chiral metamaterials, we could convert polarization-resolved absorptions to corresponding polarization-resolved photovoltages of three ports through the photothermoelectric effect. We utilize the developed polarimeter in an imaging demonstration showing reliable ability for polarization reconstruction. Our work provides an alternative strategy for developing polarization-resolved photodetectors with a bandgap-independent operation range in the mid-infrared.
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