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The design of a superluminal electron accelerator 超光速电子加速器的设计
Theodore A. Jacobson and Renaud Parentani published an article in Scientific American magazine, pointing out the similarity in behavior between sound waves in fluids and light waves in curved spacetime (such as around black holes). T. Padmanabhan's work further proves this point by proving that the Einstein field equation of general relativity has the same form as the Navier Stokes equation of fluid dynamics. The conclusion of his paper is that "gravity is fluid mechanics". In addition, Franck Delplace has shown that if a fluid like ether is assumed to be a fluid dynamics explanation of general relativity and quantum mechanics, it exhibits consistent dynamic viscosity at all scales. For example, the shear pressure generated by ether is the same as that of neutrons and neutron stars. He has also proposed other fundamental arguments to support universal fluids like ether as matrices.
This indicates that we can draw on the experience of human beings breaking through sound barriers to break through light barriers, rebuild existing accelerators (all of which are sub light speed accelerators), and conduct experiments using technical measures that comply with superparticle dynamics and energy relations. Today, Professor Pei Yuanji has calculated and designed accelerators according to this law, hoping to come up with practical and feasible solutions, Discover strange electrons traveling at speeds exceeding the speed of light.
Theodore A.Jacobson和Renaud Parentani在《科学美国人》杂志上发表了一篇文章,指出了流体中声波和弯曲时空(如黑洞周围)中光波的行为之间的相似性。T.Padmanabhan的工作进一步证明了这一点,他证明了广义相对论的爱因斯坦场方程与流体动力学的Navier-Stokes方程具有相同的形式。他的论文的结论是“重力就是流体力学”。此外,Franck Delplace已经表明,如果假设类流体以太是广义相对论和量子力学的流体动力学解释,则在所有尺度上都显示出一致的动态粘度[21]。例如,以太产生的剪切压力与中子和中子星的剪切压力相同。他还提出了其他基本论点来支持像以太这样的普遍流体作为基质。
这就说明我们可以借鉴人类突破声障(sonic barrier)的经验来突破光障(light barrier),对现有加速器(都是亚光速加速器)进行改建,用符合超粒子动力学和能量关系的技术措施进行实验,直到今天裴元吉教授按照此规律进算和做了加速器的设计,期望能够拿出实际可行的方案,发现以超光速运行的奇异电子(meta-electron)。
主题词:相对论,超光速, 流体力学,声障,光障
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