Prof. Wang Ruyong recommended to us a good scientific special issue accepting unorthodox physical theories.

Prof. Wang used to work in the Institute of Mechanics of the Chinese Academy of Sciences, and later worked in St. Cloud State University of the United States. He told us that a special issue accepting papers of both orthodox and unorthodox views is a good place to contribute: Open Access Jounal Symmetry's special issue, Symmetry and Asymmetry in Relativity: Theories and Applications.

The link is: https://www.mdpi.com/journal/symmetry/special_issues/symmetry_asymmetry_relativity_theories_applications

He said: "the email sent to me by Professor Ramzi Suleiman has the website of this special issue, see above. You can see that you can start contributing now, and the deadline is November 15, 2022, but the contribution (after being accepted) will be published on the website of the special issue immediately."

Interested parties can register and contribute on this website.

This issue is a special issue of jounal Symmetry. However, because it is open access and non-paper, the artical can be submitted, accepted and published from now on until November 15 of next year, and then the whole special issue will be published. This is my understanding, he said.

It can also be said that this special issue will become a collection of papers of various viewpoints (orthodox and unorthodox) on this topic. If there are many contributors, the special issue will have good scientific value. Actually a special issue with the title of Symmetry and Asymmetry in Relativity: Theories and Applications is an innovation in the publication of physics journals. Besides, there has never been a special issue with that title having papers of unorthodox views. 

The impact factor of open source journal Symmetry in 2021 is 3.114. In fact, it can be said that the impact factor is good, because "In most fields, the impact factor of 10 or greater is considered an excellent score while 3 is flagged as good and the average score is less than 1."

The followings are from that issue.

Areas of discussion:

Symmetry, Lorentz symmetry principle, symmetry destruction in quantum and high energy physics, special relativity, sagnack effect, Doppler effect, speed of light.

The purpose of this publication is:

The principle of relativity asserts that there is no privileged inertial reference system, so the physical laws of all inertial reference systems are the same. It has been proved that Lorentz transformation and Galileo transformation accord with the principles of inertia and relativity. 

Although Newtonian physics is symmetrical (invariant), under the Galileo transformation, special relativity and most contemporary physics assume space-time symmetry under the Lorentz transformation. Now people firmly believe that the speed of light is a universal constant; Einstein's special relativity is the correct model of the inertial system of nature, and Newtonian physics is the limit of very low relative speed.

This special issue aims to re-examine the above-mentioned conventions. We hope that this problem will include orthodox and unorthodox relativistic methods. We welcome theoretical, empirical and critical articles on the following topics: constant speed of light, Lorentz symmetry, Lorentz symmetry destruction in quantum mechanics, Lorentz symmetry destruction in high energy physics, special relativity, sagnack effect, Doppler effect, the application of relativity theory in GPS system, and sagnack effect in gyroscope. Articles on other related topics, including methodology, philosophy and interdisciplinary research, are also popular.

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初浅译文如下：

“相对论中的对称与不对称：理论与应用”专题

《对称》特刊（ISSN 2073-8994）。本特刊属于“物理学和对称/不对称”一节。

稿件提交截止日期：2022年11月15日。

特刊编辑 拉姆齐·苏莱曼教授

客座编辑 以色列海法海法大学社会科学学院

兴趣：理论物理；相干光学；GPS精度方法；博弈论；社会困境；讨价还价竞争理论与实验研究；合作与公平

Stephan J.G.Gift教授

客座编辑 西印度群岛大学、圣奥古斯丁校园、圣奥古斯丁、特立尼达和多巴哥大学电气与计算机工程系

兴趣：微电子；线性集成电路；最优控制理论；狭义相对论；GPS操作；光速；化学键

汉斯·赫尔曼·奥托教授  客座编辑

德国克劳斯塔尔大学材料科学与晶体学处理研究系

兴趣：晶体化学和晶体物理，相变，应用数学：生命中的黄金比例，物理和宇宙，电子结构

特刊资料

各位同事，

相对论原理断言不存在特权惯性参考系，因此所有惯性参考系的物理定律都是相同的。已经证明洛伦兹变换和伽利略变换符合惯性和相对论原理。虽然牛顿物理学是对称的（不变的），但在伽利略变换下，狭义相对论以及大多数当代物理学在洛伦兹变换下假设时空对称。现在人们坚信光速是一个普遍常数；爱因斯坦的狭义相对论是自然界惯性系统的正确模型，牛顿物理学是非常低相对速度的极限。

本期特刊旨在重新审查上述公约。我们希望这个问题将包含正统和非正统的相对论方法。我们欢迎就以下主题提交理论、经验和评论文章：光速恒定性、洛伦兹对称性、量子力学中的洛伦兹对称性破坏、高能物理学中的洛伦兹对称性破坏、狭义相对论、萨格纳克效应、多普勒效应、相对论理论在GPS系统中的应用，以及陀螺仪中的萨格纳克效应。关于其他相关主题的文章，包括方法学、哲学和跨学科研究，也受欢迎。

拉姆齐·苏莱曼教授

Stephan J.G.Gift教授

汉斯·赫尔曼·奥托教授

特邀编辑

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关键词

对称性,洛伦兹对称原理,量子和高能物理中的对称性破坏,狭义相对论,萨格纳克效应,多普勒效应，光速

This is an illustration of an article that my friends and I want to contribute