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Hauptverfasser: Liu, Yue, Liu, Ying, Drew, Michael G. B.
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2508.06522
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author Liu, Yue
Liu, Ying
Drew, Michael G. B.
author_facet Liu, Yue
Liu, Ying
Drew, Michael G. B.
contents The wave mechanics theory of microwave absorption challenges the long-standing impedance-matching and quarter-wavelength paradigms by demonstrating that conventional models mistakenly conflate bulk material parameters with thin-film phenomena. Drawing on a corpus of 35 peer-reviewed papers and preprints, the study performs a citation-pattern analysis and a logical audit of established theory. Results reveal a striking asymmetry in scholarly engagement, only a handful of supportive or neutral citations appear amid widespread silence, alongside critical logical flaws in impedance matching, notably its inconsistent treatment of penetration, reflection, and absorption from film. By re-framing absorption as a wave-mechanics process governed by interference at parallel interfaces, the wave mechanics framework restores energy-conservation consistency and provides experimentally verified design rules for film thickness, phase response, and broadband performance. The paper further situates the citation neglect within broader issues of peer-review bias and paradigm inertia, illustrating how cargo-cult scientific practices can impede theoretical progress. Recommendations are offered for researchers, editors, and institutions to foster open discourse, rigorously test competing models, and update curricula and design tools accordingly.
format Preprint
id arxiv_https___arxiv_org_abs_2508_06522
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Citation Issues in Wave Mechanics Theory of Microwave Absorption
Liu, Yue
Liu, Ying
Drew, Michael G. B.
Physics and Society
Digital Libraries
Optics
The wave mechanics theory of microwave absorption challenges the long-standing impedance-matching and quarter-wavelength paradigms by demonstrating that conventional models mistakenly conflate bulk material parameters with thin-film phenomena. Drawing on a corpus of 35 peer-reviewed papers and preprints, the study performs a citation-pattern analysis and a logical audit of established theory. Results reveal a striking asymmetry in scholarly engagement, only a handful of supportive or neutral citations appear amid widespread silence, alongside critical logical flaws in impedance matching, notably its inconsistent treatment of penetration, reflection, and absorption from film. By re-framing absorption as a wave-mechanics process governed by interference at parallel interfaces, the wave mechanics framework restores energy-conservation consistency and provides experimentally verified design rules for film thickness, phase response, and broadband performance. The paper further situates the citation neglect within broader issues of peer-review bias and paradigm inertia, illustrating how cargo-cult scientific practices can impede theoretical progress. Recommendations are offered for researchers, editors, and institutions to foster open discourse, rigorously test competing models, and update curricula and design tools accordingly.
title Citation Issues in Wave Mechanics Theory of Microwave Absorption
topic Physics and Society
Digital Libraries
Optics
url https://arxiv.org/abs/2508.06522