1 如果是做真学问，就必须同时搞清正反两方的观点，而不是我行我素坚持自己的观点

很多人以为现代科学理论，就是错了，也不会像地心理论那样错的结结实实，不可修复。

很多人认为被大量实验文章支持的现行科学研究领域的主流理论不会彻底的错了。

有上万篇实验文章支持现代微波吸收理论，

因此他们以为现行微波吸收理论，就是错了，也是可以修复的错误，不会结结实实地错了。

所以当有反对理论出来后，他们不认真研究反方理论，就敢于继续大量发表应用错误理论的文章。

自从微波吸收的波动力学反对理论发表后很长一段时间，几乎没有人认真研究一下这个反方的理论，

主流期刊继续大量发表错误文章，不允许反方观点发表。

主流文章基本不提反方观点。

引用文献的作者真的看懂了自己所引用的文献吗？

2 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

量子力学中没有经典力学中的轨道概念，

但是在量子力学中，轨道被沿用来指代粒子的状态。

然而，

现行微波吸收理论错的如此彻底，

就是用量子力学中这种修正概念的方法。

也无法修正现行微波吸收理论中的逻辑错误。

3 要保证现行微波吸收理论不被历史所推翻，主流科学家必须能够修复他们的理论

要保证现行微波吸收理论不被历史所推翻，主流科学家必须针对已经发表的反对文章中的质疑，

给出令人信服的理由说明这些质疑都不是问题，

或者这些被指出的问题都是能够通过某种修正修复。

一味回避反方理论，阻碍反方观点的发表，

是绝不会挽救现行微波吸收主流理论被推翻的命运。

被实验反复证明的东西一定是真理吗

燃素理论是通过实验建立的，是通过数学逻辑推翻的---检验理论正确性靠逻辑，不是靠实验验证

4 对现行微波吸收的主流理论的质疑

对已经发表的对现行微波吸收的主流理论的质疑和否定，

主流科学家必须认真对待，而不是回避不谈，不扩大反方观点的影响。

一个理论如果彻底错了，那这个理论的方方面面都错了，

如

阻抗匹配理论错了，

四分之一波长理论错了，

微波吸收机理错了，

材料和膜被混淆了，

独立的界面和膜的界面被混淆了，

膜的界面和材料颗粒的界面被混淆了，

...

错误很多很多，都是不可救药的错误，

对现行微波吸收的主流理论的质疑和否定，

发表在如下的严肃期刊的多篇论文中，

到目前为止主流科学家没有给出能站得住的反驳。

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(4), 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, Review of: The Compton Wavelength Is the True Matter Wavelength, Linked to the Photon Wavelength, While the de Broglie Wavelength Is Simply a Mathematical Derivative, Qeios, 2023, https://doi.org/10.32388/YLQG7T

11. 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

12. 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

13. 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.)

14. 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

15. 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

16. 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.

17. 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

18. 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.

19. 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.

20. 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.

21. 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.

22. 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)

23. 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.

24. 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.

25. 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

26. 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.

27. 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.

28. 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.

29. 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.

30. 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.

31. 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.

32. 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.