Chaotic Brillouin Optical Correlation Domain Analysis

Jianzhong Zhang; Mingtao Zhang; Mingjiang Zhang; Yi Liu; Changkun; Feng; Yahui Wang; Yuncai Wang

arXiv:1710.08580·physics.ins-det·May 9, 2018

Chaotic Brillouin Optical Correlation Domain Analysis

Jianzhong Zhang, Mingtao Zhang, Mingjiang Zhang, Yi Liu, Changkun, Feng, Yahui Wang, Yuncai Wang

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TL;DR

This paper introduces a chaotic laser-based Brillouin optical correlation domain analysis system that achieves high spatial resolution and accurate distributed fiber sensing over nearly 1 km.

Contribution

It presents a novel chaotic laser approach for BOCDA, enhancing spatial resolution and measurement accuracy in distributed fiber sensing.

Findings

01

Achieved 3.92-cm spatial resolution

02

Demonstrated 906-m measurement range

03

Measurement uncertainty of 1.2 MHz

Abstract

We propose and experimentally demonstrate a chaotic Brillouin optical correlation-domain analysis (BOCDA) system for distributed fiber sensing. The utilization of the chaotic laser with low coherent state ensures high spatial resolution. The experimental results demonstrate a 3.92-cm spatial resolution over a 906-m measurement range. The uncertainty in the measurement of the local Brillouin frequency shift is 1.2MHz. The measurement signal-to-noise ratio is given, which is agreement with the theoretical value.

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