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首页> 外文期刊>Progress in Physics >A New Light-Speed Anisotropy Experiment: Absolute Motion and Gravitational Waves Detected
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A New Light-Speed Anisotropy Experiment: Absolute Motion and Gravitational Waves Detected

机译:一个新的光速各向异性实验:检测到绝对运动和引力波

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Data from a new experiment measuring the anisotropy of the one-way speed of EM waves in a coaxial cable, gives the speed of light as 300,000 +/- 400 (+/- 20) km/s in a measured direction RA=5.5 +/- 2 hrs, Dec=70 +/- 10 Deg S, is shown to be in excellent agreement with the results from seven previous anisotropy experiments, particularly those of Miller (1925/26), and even those of Michelson and Morley (1887). The Miller gas-mode interferometer results, and those from the RF coaxial cable experiments of Torr and Kolen (1983), De Witte (1991) and the new experiment all reveal the presence of gravitational waves, as indicated by the last +/- variations above, but of a kind different from those supposedly predicted by General Relativity. Miller repeated the Michelson-Morley 1887 gas-mode interferometer experiment and againdetected the anisotropy of the speed of light, primarily in the years 1925/1926 atop Mt.Wilson, California. The understanding of the operation of the Michelson interferometer in gas-mode was only achieved in 2002 and involved a calibration for the interferometer that necessarily involved Special Relativity effects and the refractive index of the gas in the light paths. The results demonstrate the reality of the Fitzgerald-Lorentz contraction as an observer independent relativistic effect. A common misunderstanding is that the anisotropy of the speed of light is necessarily in conflict with Special Relativity and Lorentz symmetry - this is explained. All eight experiments and theory show that we have both anisotropy of the speed of light and relativistic effects, and that a dynamical 3-space exists - that absolute motion through that space has been repeatedly observed since 1887. These developments completely change fundamental physics and our understanding of reality. Modern vacuum-mode Michelson interferometers, particularly the long baseline terrestrial versions, are, by design flaw, incapable of detecting the anisotropy effect and the gravitational waves.
机译:来自一项新实验的数据,该实验测量了同轴电缆中EM波的单向速度的各向异性,在测量方向RA = 5.5 +上,光速为300,000 +/- 400(+/- 20)km / s /-2小时,Dec = 70 +/- 10 Deg S,与先前的七个各向异性实验的结果非常吻合,特别是Miller(1925/26),甚至是Michelson和Morley(1887)的实验)。 Miller气体模式干涉仪的结果以及Torr和Kolen(1983),De Witte(1991)的RF同轴电缆实验以及新实验的结果均显示了引力波的存在,如最后的+/-变化所示。以上,但与广义相对论所预测的有所不同。 Miller重复了Michelson-Morley 1887气体模式干涉仪实验,并再次检测到光速的各向异性,主要是在1925/1926年在加利福尼亚州威尔逊山顶上。对迈克尔逊干涉仪在气体模式下的操作的了解仅在2002年才实现,并且涉及对干涉仪的校准,校准必须涉及狭义相对论效应和气体在光路中的折射率。结果证明了菲茨杰拉德-洛伦兹收缩作为观察者独立的相对论效应的现实。一个普遍的误解是光速的各向异性必然与狭义相对论和洛伦兹对称性相冲突-这是可以解释的。所有这八项实验和理论都表明,我们既具有光速的各向异性,也具有相对论效应,并且存在动态的3空间-自1887年以来就反复观察到通过该空间的绝对运动。这些发展完全改变了基础物理学,对现实的理解。现代的真空模式迈克尔逊干涉仪,特别是长基线地面版本,由于设计缺陷,无法检测各向异性效应和重力波。

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