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Auteurs principaux: Shao, Tianchen, Jia, Zekui, Li, Maokun, Xu, Shenheng, Yang, Fan
Format: Preprint
Publié: 2025
Sujets:
Accès en ligne:https://arxiv.org/abs/2510.27276
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author Shao, Tianchen
Jia, Zekui
Li, Maokun
Xu, Shenheng
Yang, Fan
author_facet Shao, Tianchen
Jia, Zekui
Li, Maokun
Xu, Shenheng
Yang, Fan
contents The wave operator model provides a framework for modeling wave propagation by encoding material parameter distributions into matrix-form operators. This paper extends this framework from lossless to lossy media. We present a derivation of the wave operator solution for the electric field in dissipative environments, which can be decomposed into a closed-form propagation term and a non-closed-form dissipation term. Based on an analysis of the dominant exponential decay within the propagation term, an attenuation compensation strategy is proposed to restore the attenuated data to an approximate lossless state. The performance of this compensation strategy is analyzed and validated through numerical experiments, establishing the theoretical foundation for reduced order model (ROM)-based techniques in lossy media.
format Preprint
id arxiv_https___arxiv_org_abs_2510_27276
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Attenuation Compensation in Lossy Media via the Wave Operator Model
Shao, Tianchen
Jia, Zekui
Li, Maokun
Xu, Shenheng
Yang, Fan
Computational Physics
The wave operator model provides a framework for modeling wave propagation by encoding material parameter distributions into matrix-form operators. This paper extends this framework from lossless to lossy media. We present a derivation of the wave operator solution for the electric field in dissipative environments, which can be decomposed into a closed-form propagation term and a non-closed-form dissipation term. Based on an analysis of the dominant exponential decay within the propagation term, an attenuation compensation strategy is proposed to restore the attenuated data to an approximate lossless state. The performance of this compensation strategy is analyzed and validated through numerical experiments, establishing the theoretical foundation for reduced order model (ROM)-based techniques in lossy media.
title Attenuation Compensation in Lossy Media via the Wave Operator Model
topic Computational Physics
url https://arxiv.org/abs/2510.27276