Characterizing Polarizers with Direct Electrical Readouts
Longbo Jiao, Lili Xie, Qiuyi Long, Xinchen Li, Yizhi Wu, Weijia Shao, Qingjia Zhou

TL;DR
This paper introduces a new type of polarizer that provides direct electrical readouts without needing bulky photodetectors.
Contribution
A Cu-ZnO junction polarizer is proposed for efficient hot-electron extraction and direct electrical readouts.
Findings
The device exhibits polarization-dependent energy depositions in absorbable Cu.
The electrical extinction ratio increases from 2.7 to 4.4 as the resonance wavelength increases from 767 nm to 869 nm.
Abstract
The polarization of light is recognized as a key physical quantity in describing light-matter interactions. Polarizers are fabricated to selectively respond to light beams with different polarizations. In practice, the operations of a polarization measuring setup require bulky and expensive terminal photodetectors, e.g., a spectrophotometer, to measure the spectral responses associated with different polarizations. To get rid of the unfavorable reliance on conventional photodetectors, polarizers having a Cu-ZnO junction for efficient hot-electron extraction have been designed to give rise to direct electrical readouts. Detailed photoelectric studies reveal that the designed device excites guided-mode resonances with which the device exhibits polarization-dependent energy depositions in absorbable Cu, leading to distinct electrical responses between transverse electric and transverse…
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Taxonomy
TopicsPhotocathodes and Microchannel Plates · Chemical and Physical Properties of Materials · Strong Light-Matter Interactions
