分光计
可扩展性
材料科学
调制(音乐)
光子学
光电子学
光谱分辨率
电压
计算机科学
分辨率(逻辑)
反向
电子工程
可穿戴技术
理论(学习稳定性)
可穿戴计算机
光学
频率调制
集成光学
波形
高分辨率
重点(电信)
相位调制
作者
Lei Guo,Jiayue Han,Xingwei Han,Chao Han,Shijie Duan,He Yu,Jun Gou,J. Wang
标识
DOI:10.1002/adma.202520521
摘要
Balancing resolution, complexity, bandwidth, power, and scalability is essential for advancing single-point miniaturized spectrometers from lab prototypes to practical portable and integrated photonic systems. In this paper, we present a high-performance two-terminal asymmetric back-to-back organic spectrometer (BTBOS) that utilizes a bias-controlled multi-peak modulation strategy to mitigate the ill-posed inverse problem common in single-point architectures. The device achieves a 1 nm spectral resolution across the broad 300-1000 nm range, with a ∼0.25 nm peak error and <2% spectral crosstalk, using only a low driving voltage of 0.6 V. The device further features a structurally simple design along with remarkable stability and reproducibility. In addition, we demonstrate its practical applicability in spectral imaging. This scalable and energy-efficient approach paves the way for practical and commercial use of miniaturized spectrometers in wearable and on-chip optical systems.
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