极低频下银河光纤类比经典电磁波捕获分析

L. Pantoja, A. Salcedo, F. Blanco, E. Román-Rangel
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引用次数: 0

摘要

正在进行的研究旨在寻找揭示极低频(UELF)经典电磁波存在的线索。考虑到它们的极端波长,从木星的实际大小到数百万光年,UELF波不可能在地球上存在,所以对它们的搜索需要在太空中寻找更大的区域。如果UELF波可以与宇宙结构(如星系或行星系统)相互作用,那么这些结构的维度与相应的波长成比例,那么就应该创造出可观测的几何图案,并揭示它们的存在。本文分析了极低频电磁波在具有近似圆形锐边的圆盘几何结构中的可行捕获。通过与光纤切片进行直接类比,我们发现像银河系这样的螺旋星系的特征周期为数万年,而像我们这样的太阳系的特征周期为几个小时。实际的几何模式,如行星磁场排列和最近发表的3D银河系地图,支持和鼓励我们的研究。当我们继续寻找支持超低频波存在的线索时,目前的工作论文提供了新的分析元素来推进它。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optical fiber analogy for galactic under extremely low frequency classical electromagnetic wave trapping analysis
Ongoing research aims at finding clues that reveal the existence of Under Extremely Low Frequency (UELF) classical electromagnetic waves. Considering their extreme wavelengths, ranging from the actual size of Jupiter up to millions of light years, UELF waves cannot fit within Earth, so the search for them needs to look after much larger regions in space. If UELF waves could interact with cosmic structures (like a galaxy or a planetary system), which dimensions scale with the corresponding wavelengths, then observable geometric patterns should be created and their existence revealed. This paper analyses the feasible trapping of UELF electromagnetic waves within cosmic structures with a disk geometry that has an approximately circular sharp edge. By making a direct analogy with an optical fiber slice, we find characteristic time periods in the order of tens of thousands of years for spiral galaxies like the Milky Way, and in the order of several hours for a solar systems like ours. Actual geometric patterns, like the planetary magnetic field alignment and the recently published 3D Milky Way mapping, support and encourage our research. While our search for clues supporting the existence of UELF waves continues, the present working paper provides novel elements of analysis to advance with it.
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