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Autori principali: Le, Van Chien, Giunzioni, Viviana, Cordel, Pierrick, Andriulli, Francesco P., Cools, Kristof
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2509.14995
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author Le, Van Chien
Giunzioni, Viviana
Cordel, Pierrick
Andriulli, Francesco P.
Cools, Kristof
author_facet Le, Van Chien
Giunzioni, Viviana
Cordel, Pierrick
Andriulli, Francesco P.
Cools, Kristof
contents This paper investigates the late-time instability of marching-on-in-time solution to the time-domain PMCHWT equation. The stability analysis identifies the static solenoidal nullspace of the time-domain electric field integral operator as the primary cause of instability. Furthermore, it reveals that the instability mechanisms of the time-domain PMCHWT equation are fundamentally different from those of the time-domain electric field integral equation. In particular, the PMCHWT's instability is much more sensitive to numerical quadrature errors, and its spectral characteristics are strongly influenced by the topology and smoothness of the scatterer surface.
format Preprint
id arxiv_https___arxiv_org_abs_2509_14995
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle On the Late-Time Instability of MOT solution to the Time-Domain PMCHWT Equation
Le, Van Chien
Giunzioni, Viviana
Cordel, Pierrick
Andriulli, Francesco P.
Cools, Kristof
Numerical Analysis
Systems and Control
This paper investigates the late-time instability of marching-on-in-time solution to the time-domain PMCHWT equation. The stability analysis identifies the static solenoidal nullspace of the time-domain electric field integral operator as the primary cause of instability. Furthermore, it reveals that the instability mechanisms of the time-domain PMCHWT equation are fundamentally different from those of the time-domain electric field integral equation. In particular, the PMCHWT's instability is much more sensitive to numerical quadrature errors, and its spectral characteristics are strongly influenced by the topology and smoothness of the scatterer surface.
title On the Late-Time Instability of MOT solution to the Time-Domain PMCHWT Equation
topic Numerical Analysis
Systems and Control
url https://arxiv.org/abs/2509.14995