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第二部分。机构类型的可行性和后果是基于结构光NON-WAVE但定期在自由空间传播。

作者(年代):现任i Costescu

在以前的文章中我们注意到光的传播的距离(整个空间)是唯一的财产可以决定由“是”或“否”如果光真的身体像电波传播,而适合描述波的衍射条纹是不够的。事实上,边缘空间太有限,因此,带来误解的可能性。因此,实验验证如果光像电波传播的距离原则上是必要的,而且是至关重要的。然而,非常意外,不幸的是,这个实验是完全缺失的历史。上一篇文章中详细描述,本实验使用最简单的衍射情况下,其中一束光与轴垂直地落在这条线的平面直边。实际上,这个实验验证是否有依赖的衍射光的距离几何阴影,在遍历一个直边梁厚度的变化,而光沿着直线边缘的分布是相同的。如果存在这种依赖,作为光的波动理论从根本上预测,然后波方法对光线传播物理上是正确的。如果没有依赖那么光不能表现得像海浪一样。我们多年来尝试这个实验,但是无法完成它,因为缺乏资源来衡量的100 - 500米。我们这个实验的详细描述和尝试,提出了在前一篇文章中,将使大实验室执行这绝对必要的实验。 However, our previous article also shows the alternative experimental proof that the answer to how light spreads also comes from comparing the well-known wave results for the diffraction on macroscopic holes with relatively recent data for the diffraction on nanoscopic holes. This comparison clearly shows that light does not spread physically like the waves do, which clearly demonstrates the necessity of a new, mechanism-type, non-wave but periodic structure for light in free space. Such an alternative answer regarding the spreading of light also makes absolutely necessary to perform the above missing experiment, as a direct way that convinces anybody how light is spreading. The present article shows that such a new structure for light is feasible based on the concept of finely dispersed matter or dark matter, with immense consequences in physics. This would be the start for further developments, or for alternative and better developments.