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首页> 外文期刊>Journal of Modern Physics >LIGO Experiments Cannot Detect Gravitational Waves by Using Laser Michelson Interferometers—Light’s Wavelength and Speed Change Simultaneously When Gravitational Waves Exist Which Make the Detections of Gravitational Waves Impossible for LIGO Experiments
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LIGO Experiments Cannot Detect Gravitational Waves by Using Laser Michelson Interferometers—Light’s Wavelength and Speed Change Simultaneously When Gravitational Waves Exist Which Make the Detections of Gravitational Waves Impossible for LIGO Experiments

机译:LIGO实验无法使用激光迈克尔逊干涉仪检测引力波-当引力波存在时,光的波长和速度会同时变化,这使得LIGO实验无法检测到引力波

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It is proved strictly based on general relativity that two important factors are neglected in LIGO experiments by using Michelson interferometers so that fatal mistakes were caused. One is that the gravitational wave changes the wavelength of light. Another is that light’s speed is not a constant when gravitational waves exist. According to general relativity, gravitational wave affects spatial distance, so it also affects the wavelength of light synchronously. By considering this fact, the phase differences of lasers were invariable when gravitational waves passed through Michelson interferometers. In addition, when gravitational waves exist, the spatial part of metric changes but the time part of metric is unchanged. In this way, light’s speed is not a constant. When the calculation method of time difference is used in LIGO experiments, the phase shift of interference fringes is still zero. So the design principle of LIGO experiment is wrong. It was impossible for LIGO to detect gravitational wave by using Michelson interferometers. Because light’s speed is not a constant, the signals of LIGO experiments become mismatching. It means that these signals are noises actually, caused by occasional reasons, no gravitational waves are detected really. In fact, in the history of physics, Michelson and Morley tried to find the absolute motion of the earth by using Michelson interferometers but failed at last. The basic principle of LIGO experiment is the same as that of Michelson-Morley experiment in which the phases of lights were invariable. Only zero result can be obtained, so LIGO experiments are destined failed to find gravitational waves.
机译:严格根据广义相对论证明,使用迈克尔逊干涉仪在LIGO实验中忽略了两个重要因素,从而导致致命错误。一种是重力波会改变光的波长。另一个是存在引力波时光速不是恒定的。根据广义相对论,引力波影响空间距离,因此也同步影响光的波长。考虑到这一事实,当重力波通过迈克尔逊干涉仪时,激光的相位差不变。另外,当存在引力波时,度量的空间部分会发生变化,但度量的时间部分不会发生变化。这样,光速不是恒定的。当在LIGO实验中使用时差的计算方法时,干涉条纹的相移仍为零。因此,LIGO实验的设计原理是错误的。 LIGO无法通过使用迈克尔逊干涉仪来检测重力波。由于光速不是恒定的,LIGO实验的信号变得不匹配。这意味着这些信号实际上是由偶然原因引起的噪声,实际上并未检测到重力波。实际上,在物理学史上,迈克尔逊和莫利曾尝试通过使用迈克尔逊干涉仪找到地球的绝对运动,但最终失败了。 LIGO实验的基本原理与Michelson-Morley实验的原理相同,后者的光的相位是不变的。只能获得零结果,因此LIGO实验注定无法找到引力波。

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