Exposure of Weak Time-Invariant Electromagnetic Fields to B16-BL6 Cell Cultures Alter Biophoton Emission Profile as a Function of Distance

Billy C. S. Yearington, Victoria L. Hossack, B. Dotta
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Abstract

Biophoton emission is produced by all living systems; this emission pattern has been shown to be altered by the presence of an electromagnetic field (EMF). Cultures of B16-BL6 cells were exposed to a weak EMF produced by a specially constructed EM generator, called the “Resonator”, for one hour. This EM generator incorporates multiple geometric ratios in its design, including the golden ratio (phi), pi, root 2, root 3, and root 5. It has been used previously to purify water of toxins. There was a significant decrease in mean photon counts from B16-BL6 cells exposed at a distance of 1 m compared to those exposed at 0 m. Alterations in the spectral power density variability were also observed in the 8 - 10 Hz range. The EM generator may have an impact on the viability of the exposed cell cultures, but only at specific distances.
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弱时不变电磁场暴露于B16-BL6细胞培养物中改变生物光子发射曲线作为距离的函数
所有生命系统都会产生生物光子;这种发射模式已被证明是改变的存在的电磁场(EMF)。将B16-BL6细胞的培养物暴露在由特殊构造的电磁发生器(称为“谐振器”)产生的弱电磁场中一小时。该电磁发生器在其设计中结合了多种几何比例,包括黄金比例(phi), pi,根号2,根号3和根号5。它以前被用来净化水中的毒素。与暴露在0 m处的细胞相比,暴露在1 m处的B16-BL6细胞的平均光子计数显著减少。在8 - 10 Hz范围内也观察到光谱功率密度变异性的变化。电磁发生器可能对暴露的细胞培养物的生存能力有影响,但仅在特定距离内。
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