这两个理论

现行微波吸收的主流理论和微波吸收的波动力学理论

是水火不容的两个相对立的理论，

只能是：

一个是错误的理论，

而另一个是正确的理论。

错误的理论从任何角度看，都是错的，

正确的理论从任何角度看，都是正确的。

自说自话、不提对方观点，不能视做反击，

只能看成：对反方观点不屑一顾、不拿正眼看你。

历史的结论：

究竟哪个理论是错误的？哪个是正确的？

...

 (拭目以待 ...)

1 现行微波吸收的主流理论

著名博导 电磁波微波吸收-概述说明以及解释.pdf-原创力文档

2024-12-08 发布于河南

===================================================

点评：

主流微波吸收理论的一个特点是：用材料的微波吸收解释膜的微波吸收峰。

但是膜和材料的微波吸收根本就是两码事。

因此国际上，我国的微波吸收论文发的最多，发表的期刊档次最高，

专家们拿了大量的项目研究经费，

但是除了与顶刊编辑的关系搞得好之外，

我国的飞机隐身技术并不隐身。

https://doi.org/10.1016/j.chphma.2022.10.002

专家们借口这样那样的瓶颈无法突破，

但是专家们根本不提为什么他们的微波吸收理论的错误无法突破。

基本理论错了，技术突破从哪里来？

基础研究水平才是技术发展的源动力。

连大学本科波叠加原理都搞不清楚的专家，

虽然他们有大量的研究经费的支持，

你能指望他们搞出什么技术名堂来？

只要搞懂大学本科的波叠加原理，

就能搞清楚：

现行主流微波吸收理论正确，

还是

新建立的微波吸收的波动力学理论正确。

上海交通大学杨枫教授：如果学术界是个草台班子，那就一定有草包

----------------------------------

从项目申请失败者的视角看基金评审 - 知乎

期刊伪同行评审阻碍科学进步，是挥之不去的痛

只要你敢于站在主流理论的对立面分析问题，颠覆性创新的灵感就会神奇地经常光顾你的大脑

===========================================

科学网—NML文章集锦 | 微波吸收与电磁屏蔽 - 纳微快报的博文

已有 3991 次阅读 2024-4-14 12:57 

微波吸收体的理论,设计和测试 - 百度学术

微波吸收材料（吸收微波、电磁反射与散射较小的材料）_百度百科

非极性溶剂与微波吸收：深入探索其相互作用-百度爱采购

=========================================

2 反方理论：微波吸收的波动力学理论

被大量实验文章实证的现行微波吸收理论错的如此彻底，其逻辑错误无法修复

反对现行主流微波吸收理论的一篇综述

写过一些评述微波吸收错误文章的稿子，基本都被期刊拒绝发表

推翻现行微波吸收理论是系列工作，其结果的发表一寸一寸地取得进展

现行微波吸收理论的AI智能回答，回答的很到位

关于微波吸收的三篇预印本

推翻现行微波吸收理论框架的一篇综述

一篇纠正现行微波吸收理论错误的文章的Qeios 播客介绍

Qeios预印本平台对SCI二区顶刊的一篇微波吸收论文的评论的YouTube视频介绍

对SCI二区顶刊的一篇微波吸收论文的评论

Qeios预印本平台的微波吸收纠错论文的YouTube视频介绍

一篇指出现行微波吸收理论错误的最新文章经历的拒稿历程记录

推翻现代研究领域微波吸收理论的文献导读（综述）

推翻现行微波吸收理论的主要论文

最新顶刊现行微波吸收理论文章和低级别刊物反对文章之间的比较

现代隐身材料（微波吸收）理论中的阻抗匹配系数理论错误了

分析一篇微波吸收科普文章中的代表性错误

Questions from Acaudio (with answers attached)

Fundamental theory of microwave absorption for films

现行微波吸收理论混淆了膜和材料的区别（公开的学术擂台，接受挑战）

现代微波吸收领域的理论框架已经被新理论推翻

==============

如何看很多年没有基金项目后突然申请上了基金项目的老师？

学术期刊如何保证审稿人的诚信性？

人要不要去听不同的甚至是与自己对立观点？

 ======================

3 反方相关论文

1.    Yue Liu, Ying Liu, Michael G. B. Drew, Review: 膜微波吸收研究在波动力学理论方向的新进展, 分子科学学报(英文版, Journal of Molecular Science), 2024, 40(198-04), 300 -305; Review of Wave Mechanics Theory for Microwave Absorption by Film, Qeios, Preprint, 2024-07-04, Supplementary data

2.     Yue Liu, Ying Liu, Michael G. B. Drew,  Review:  Recognizing Problems in Publications Concerned with Microwave Absorption Film and Providing Corrections: A Focused Review, Qeios, preprin,  2024-07-01, Supplementary data,   Yue Liu, Ying Liu, Drew MGB,  [Commentary] Comments on: “A perspective on impedance matching and resonance absorption mechanism for electromagnetic wave absorbing” by Hou et al. [Carbon 222 (2024) 118935], Qeios, 2024, Supplementary Yue Liu, Ying Liu, Drew MGB, Corrections of common errors in current theories of microwave absorption caused by confusing film and material, Qeios, 2024/02/10, preprint, https://doi.org/10.32388/QQ1MFF;  Corrections of Common Errors Associated with the Confusion between Film and Material in Current Theories of Microwave Absorption. Available at SSRN: https://ssrn.com/abstract=4797207 or http://dx.doi.org/10.2139/ssrn.4797207 

3.    Yue Liu，Ying Liu，Michael G. B Drew. Review：Wave mechanics of microwave absorption in films: a short review, Optics and Laser Technology, 2024, 178,  111211  （The wave mechanics for microwave absorption film-Part 1: A short review, Preprint, Research Square, 15 Aug, 2023, scite）

4.   Yue Liu，Ying Liu，Michael G. B Drew，Wave Mechanics of Microwave Absorption in Films - Distinguishing Film from Material，Journal of Magnetism and Magnetic Materials，2024， 593, 171850 ;     ( The wave mechanics for microwave absorption film – Part 2: The difference between film and material，Preprint, Research Square, 15 Aug, 2023, Supplementarial file)

5.   Yue Liu，Ying Liu，Michael G. B Drew，Wave Mechanics of Microwave Absorption in Films: Multilayered Films, Journal of Electronic Materials, 2024, doi: 10.1007/s11664-024-11370-9; The wave mechanics for microwave absorption film-Part 3: Film with multilayers, Preprint, Research Square, 13 Aug, 2023,Supplementarial file, scite_

6.     Yue Liu, Michael G. B Drew,Ying Liu, A Theoretical Exploration of Impedance Matching Coefficients for Interfaces and Films, Applied Physics A, 2024, 130, 212

7.   Ying Liu, Michael. G.B. Drew, Yue Liu, Chapter 4: Fundamental Theory of Microwave Absorption for Films of Porous Nanocomposites: Role of Interfaces in Composite-Fillers, in Porous Nanocomposites for Electromagnetic Interference Shielding, Edited by: Sabu Thomas, Claudio Paoloni, Avinash R. Pai, 2024, Elsevier, [978-0-323-90035-5_B978-0-323-90035-5.00013-1], pp. 59 - 90, https://doi.org/10.1016/B978-0-323-90035-5.00013-1

8.   刘颖， 刘跃，膜的微波吸收机理， 分子科学学报， 2023，v.39; No.194(06) 521-527

9.   Ying Liu, Kaiqi Yang, Yue Liu, Michael G. B Drew, The Shackles of Peer Review: Unveiling the Flaws in the Ivory Tower, arXiv, https://doi.org/10.48550/arXiv.2310.05966

10. Ying Liu, Michael G. B. Drew, Yue Liu, A physics investigation on impedance matching theory in microwave absorption film—Part 1: Theory, Journal of Applied Physics, 2023, 134(4), 045303, DOI: 10.1063/5.0153608

11. Ying Liu, Michael G. B. Drew, Yue Liu, A physics investigation on impedance matching theory in microwave absorption film—Part 2: Problem Analyses, Journal of Applied Physics, 2023, 134(4), 045304, DOI: 10.1063/5.0153612

12. Ying Liu; Xiangbin Yin; M. G. B. Drew; Yue Liu, Microwave absorption of film explained accurately by wave cancellation theory, Physica B: Condensed Matter, 2023, 666, 415108. (Microwave absorption of film explained accurately by wave cancellation theory, 2023-02-23 | Preprint, Research Square, DOI: 10.21203/rs.3.rs-2616469/v2，Supplementary information: Available comments and our responses.)

13. Ying Liu, Yi Ding, Yue Liu, Michael G. B. Drew. Unexpected Results in Microwave Absorption – Part 1: Different absorption mechanisms for metal-backed film and for material, Surfaces and Interfaces, 2023, 40, 103022

14. Ying Liu, Yi Ding, Yue Liu, Michael G. B. Drew. Unexpected Results in Microwave Absorption – Part 2:. Angular effects and the wave cancellation theory, Surfaces and Interfaces, 2023, 40, 103024

15. Ying Liu, Xiangbin Yin, Michael G. B. Drew, Yue Liu, Reflection Loss is a Parameter for Film, not Material, Non-Metallic Material Science, 2023, 5(1): 38-48.

16. 刘颖，丁一，陈庆阳，刘跃，NiFe2-xMxO4 (M: Ce/Sm/Gd)的制备及其膜的微波吸收性能，沈阳师范大学学报 ( 自然科学版 ), 2023, 41(2)，98 - 103

17. Ying Liu, Yue Liu, Drew M.G.B, A re-evaluation of the mechanism of microwave absorption in film – Part 1: Energy conservation, Mater. Chem. Phys. 2022, 290,126576.

18. Ying Liu, Yue Liu, Drew M.G.B, A re-evaluation of the mechanism of microwave absorption in film – Part 2: The Real mechanism, Mater. Chem. Phys,. 2022, 291, 126601.

19. Ying Liu, Yue Liu, Drew M.G.B, A re-evaluation of the mechanism of microwave absorption in film  Part 3: Inverse relationship, Mater. Chem. Phys. 2022, 290, 126521.

20. Liu Y, Liu Y, Drew MGB. A theoretical investigation of the quarter-wavelength model — part 2: verification and extension. Physica Scripta 2022, 97(1) : 015806.

21. Liu Y, Liu Y, Drew MGB. A theoretical investigation on the quarter-wavelength model — part 1: analysis. Physica Scripta 2021, 96(12) : 125003. ( The problems in the quarter-wavelength model and impedance matching theory in analysising microwave absorption material, 2021-08-30 | Preprint, Research Square, DOI: 10.21203/rs.3.rs-206241/v1)

22. Liu Y, Drew MGB, Li H, Liu Y. A theoretical analysis of the relationships shown from the general experimental results of scattering parameters s11 and s21 – exemplified by the film of BaFe12-iCeiO19/polypyrene with i = 0.2, 0.4, 0.6. Journal of Microwave Power and Electromagnetic Energy 2021, 55(3) : 197-218.

23. Liu Y, Drew MGB, Li H, Liu Y. An experimental and theoretical investigation into methods concerned with “reflection loss” for microwave absorbing materials. Materials Chemistry and Physics 2020, 243 : 122624.

24. Liu Y, Lin Y, Zhao K, Drew MGB, Liu Y. Microwave absorption properties of Ag/NiFe2-xCexO4 characterized by an alternative procedure rather than the main stream method using “reflection loss”. Materials Chemistry and Physics 2020, 243 : 122615

25. 赵坤 , 林雨冉 , 刘颖 . 微波吸收复合材料 Ag/NiFe2-xCexO4 的制备与表征. 功能材料 2020, 51(03) : 03171 - 03175.

26. Liu Y, Drew MGB, Liu Y. Characterization microwave absorption from active carbon/BaSmxFe12−xO19/polypyrrole composites analyzed with a more rigorous method. Journal of Materials Science: Materials in Electronics 2019, 30(2) : 1936-1956.

27. Yang K, Liu Y, Drew MGB, Liu Y. Preparation and characterization of BaSmxFe12 − xO19/polypyrrole composites. Journal of Materials Science: Materials in Electronics 2018, 29(15) : 13148-13160, Electronic supplementary material.

28. Liu Y, Zhao K, Drew MGB, Liu Y. A theoretical and practical clarification on the calculation of reflection loss for microwave absorbing materials. AIP Advances 2018, 8(1) : 015223.

29. Liu Y, Yu H, Drew MGB, Liu Y. A systemized parameter set applicable to microwave absorption for ferrite based materials. Journal of Materials Science: Materials in Electronics 2018, 29(2) : 1562-1575,Supplementary material.

30. Liu Y, Tai R, Drew MGB, Liu Y. Several Theoretical Perspectives of Ferrite-Based Materials—Part 1: Transmission Line Theory and Microwave Absorption. Journal of Superconductivity and Novel Magnetism 2017, 30(9) : 2489-2504.

31. Liu Y, Jin J, B. Drew MG, Liu Y. Several Theoretical Perspectives of Ferrite-Based Materials—Part 2: Close Packing Model for Crystal Structure. Journal of Superconductivity and Novel Magnetism 2017, 30(10) : 2777-2789.

32. Liu Y, Liu Y, Yin H, Drew MGB. Several Theoretical Perspectives of Ferrite-Based Materials-Part 3: Crystal Structure and Synthesis. Journal of Superconductivity and Novel Magnetism 2017, 30(11) : 3019-3025.