Earthquake Distance and Magnitude Estimation via Calibrated Microwave Frequency Fiber Interferometry

Stavros Deligiannidis; Yuhan Wang; Christos Simos; Iraklis Simos; Andreas Fichtner; Nikolaos S. Melis; Charis Mesaritakis; Adonis Bogris

arXiv:2507.20551·physics.optics·July 29, 2025·ECOC

Earthquake Distance and Magnitude Estimation via Calibrated Microwave Frequency Fiber Interferometry

Stavros Deligiannidis, Yuhan Wang, Christos Simos, Iraklis Simos, Andreas Fichtner, Nikolaos S. Melis, Charis Mesaritakis, Adonis Bogris

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TL;DR

This paper introduces a calibration framework for Microwave Frequency Fiber Interferometry (MFFI) to accurately estimate earthquake distance and magnitude, advancing early warning technology with the first quantitative seismic sensing demonstration.

Contribution

The paper presents the first calibrated MFFI system capable of quantitative seismic parameter estimation, enhancing earthquake monitoring and early warning.

Findings

01

Successful calibration of MFFI for seismic measurements

02

Accurate estimation of earthquake distance and magnitude

03

First demonstration of quantitative seismic sensing with MFFI

Abstract

We present a calibration framework for a Microwave Frequency Fiber Interferometer (MFFI) aimed at estimating earthquake distance and magnitude, with the long-term goal of enabling early warning capabilities. This marks the first demonstration of calibrated MFFI sensing for quantitative seismic parameter retrieval

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