谐振器
干涉测量
频率调制
铌酸锂
相位调制
稳健性(进化)
光子学
炸薯条
光学
物理
多普勒效应
电子工程
测量不确定度
计量系统
调制(音乐)
光学滤波器
信号处理
节拍(声学)
材料科学
观测误差
光电子学
调幅
多路复用
解调
计算机科学
光调制幅度
自由光谱范围
激光器
光通信
信号发生器
光子集成电路
相位差
功能框图
光学环形谐振器
半导体激光器理论
功率(物理)
白光干涉法
光功率
集成光学
作者
Mengya Zong,Jiaqi Shen,Shuang Wang,Yu Zhang,Xiangchuan Wang,Simin Li,Shilong Pan
标识
DOI:10.1109/jlt.2026.3667707
摘要
This paper presents and experimentally demonstrates a Doppler frequency shift (DFS) measurement system based on on-chip coherent wavelength-selective modulation, fabricated on a lithium niobate on insulator platform. The device employs a Mach-Zehnder interferometer like structure with parallel arms, each consisting of a cascaded micro-ring resonator and phase modulator. By independently modulating the transmitted and echo signals on different wavelengths, the DFS is determined from the beat frequency generated between their corresponding sidebands. This methodology exhibits inherent robustness against both power fluctuations and wavelength-selection imperfections. Experimental characterization using 12 GHz, 15 GHz and 18GHz signals demonstrated a maximum measurement error within ±0.6 Hz over a DFS range of ±100 kHz. Simulation results further confirm the system's ability to distinguish between multiple moving targets with identical speeds but opposing directions.
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