Potential Power of the Pyramidal Structure IV: Discovery of Entanglement Due to Pyramid Effects

O. Takagi, Masamichi Sakamoto, Kimiko Kawano, Mikio Yamamoto
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引用次数: 5

Abstract

Since October 2007, we have been conducting rigorous scientific research on the unexplained “power” of a pyramidal structure (PS). From our research results so far, we could classify pyramid effects by the PS into the following two types: (i) the pyramid effects due to the potential power of the PS and (ii) the pyramid effects due to the influence of the test subject meditating inside the PS. We have been using edible cucumber sections as the biosensors. The pyramid effect existence was clarified by measuring and analyzing the concentration of volatile components released from the biosensors. The biosensors were arranged as a pair: one member of the pair was placed at the PS apex and the other was placed at the calibration control point 8.0 m away from the PS. In this paper, we report a new discovery regarding the type (i) pyramid effects. We discovered a phenomenon considered to be entanglement between the biosensor pairs detecting the pyramid effects. In other words, the biosensors at the PS apex, which were affected by the potential power of the PS, affected the biosensors at the calibration control point. We also confirmed that the effects on the biosensors placed at the calibration control point were not due to the potential power of the PS. Furthermore, we showed that the magnitude of the effect of entanglement changed with the seasons. We expect that our research results will be widely accepted in the future and will become the foundation for a new research field in science, with a wide range of applications.
金字塔结构的势能IV:由于金字塔效应的纠缠的发现
自2007年10月以来,我们一直在对金字塔结构(PS)无法解释的“力量”进行严格的科学研究。从我们目前的研究结果来看,我们可以将PS产生的金字塔效应分为以下两种类型:(i)由于PS的潜在力量而产生的金字塔效应;(ii)由于被试者在PS内冥想的影响而产生的金字塔效应。我们一直使用可食用的黄瓜切片作为生物传感器。通过测量和分析生物传感器释放的挥发性成分浓度,证实了金字塔效应的存在。生物传感器被布置成一对:一对中的一个成员放置在PS顶点,另一个放置在距离PS 8.0 m的校准控制点。在本文中,我们报告了关于(i)型金字塔效应的新发现。我们发现了一种现象,被认为是生物传感器对之间的纠缠检测金字塔效应。也就是说,PS顶点的生物传感器受到PS电位的影响,从而影响校准控制点的生物传感器。我们还证实了对放置在校准控制点的生物传感器的影响不是由于PS的潜在功率。此外,我们还表明纠缠的影响程度随季节而变化。我们期望我们的研究成果在未来能够被广泛接受,并成为一个新的科学研究领域的基础,具有广泛的应用前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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