曹国洋、李孝峰等在ACS Photonics发表论文

时间: 2024-07-09 作者: 浏览次数: 12



题目:Dual-Polarity Dember Photodetectors for Optical Encryption Communications


作者:Yijing Chena,b, Guoyang Caoa,b,*, Chengzhuang Zhanga,b, Shaolong Wua,b, Dong Mac, Changlei Wanga,b, Zhenhai Yang a,b, and Xiaofeng Li a,b,*


单位:

a School of Optoelectronic Science and Engineering & Collaborative Innovation Center of Suzhou Nano Science and Technology, Soochow University, Suzhou 215006,China

b Key Lab of Advanced Optical Manufacturing Technologies of Jiangsu Province & Key Lab of Modern Optical Technologies of Education Ministry of China, Soochow University, Suzhou 215006, China

c School of Rail Transportation, Soochow University, Suzhou 215131, China


摘要:

Optical wireless communication has garnered significant interest, yet its inherent transparency poses a formidable challenge to ensure the communication security. Optical encryption communication (OEC) emerges as a potential remedy; however, its widespread adoption is hindered by the intricate design and high operational complexity. Herein, we propose an OEC scenario employing self-powered dual-polarity Dember photodetectors (PDs) composed by a sandwich configuration of ITO/MASnI3/Ag. The highly manipulated photonic responses (i.e., direct optical absorption and localized surface plasmon resonance) together with the strong Dember effect by perovskite material empower the unbiased PDs to exhibit the reverse photocurrents (i.e., the dual-polarity) across a broad wavelength band, which shows a strong robustness against the variations of light source, material composition, and geometric setup. Moreover, the dual-polarity PDs show exceptionally high performances, i.e., an ultrahigh responsivity of 114.2 A/W, a large specific detectivity of 2.4×1012 Jones, and an ultrashort response time of ~2.2 ns. Furthermore, we employ the dual-polarity PD as the receiver to establish a compatible OEC system, where the light components at the wavelengths of 302 and 706 nm are taken as the main signal and secret key, respectively. A series of ASCII codes is encoded into the main signal and transmitted through the light, and then successfully decoded on the receiver side by using the dual-polarity PD. It is verified that the information can be better encrypted with the introduction of the dual-polarity Dember PD. The study provides a promising approach for secure and high-performance optical communication through the integration of the newly developed PDs.


影响因子:6.5


链接:https://doi.org/10.1021/acsphotonics.3c01796