光电子学
材料科学
光电探测器
异质结
光探测
偏振器
加密
响应度
极化(电化学)
数据传输
光电二极管
光学晶体管
光通信
宽带
量子效率
电压
光开关
光学
窃听
纳米线
带宽(计算)
传输(电信)
接口
载流子
光子学
计算机科学
量子点
作者
Xiaoqi Zi,Shaoguang Zhao,Hang Deng,Qiman Zhang,Ziheng Zhao,Li Tao
摘要
Polarimetric optical encryption enables parallel information channels and enhanced eavesdropping prevention capabilities, improving data transmission capacity and information security. However, conventional systems rely heavily on bulky and discrete components such as polarizers and wave plates, which complicate device integration and miniaturization. To address these limitations, we demonstrate a polarization-resolved photodetector based on the heterostructure of GeSe/2H-MoTe2. Leveraging the type-II energy band arrangement and strong interface coupling between anisotropic GeSe and ambipolar 2H-MoTe2 layers, the device enables efficient carrier separation and broadband light response from visible to near-infrared regions. Under 638 nm irradiation, the device achieves self-powered operation with a responsivity of 1.98 A/W, a specific detectivity of 1.15 × 1011 Jones, and an external quantum efficiency of 387%. Moreover, the polarization ratio of the device is electrically tunable (1.47–3.17), enabling the realization of an XNOR-based optical encryption system in which polarization angles and gate voltages serve as optical data bits and electrical keys, respectively. This work not only presents an efficient strategy for enhancing polarization sensitivity and broadband self-powered detection but also establishes a route toward secure and reconfigurable optoelectronic information processing based on 2D van der Waals (vdW) heterostructures.
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