摘要
Since October 2007, we have been conducting rigorous scientific experiments to elucidate the so-called “pyramid power”. The experiments use a pyramidal structure (PS). In order to detect the PS effects, a biosensor is made from cucumber fruit sections and the released volatile components are analyzed as gas concentration. We reported the phenomenon of entanglement between biosensors in part IV of the paper series, Potential Power of the Pyramidal Structure. The entanglement affected the gas concentration of the biosensors 8 m away, but not the biosensors at the PS apex. In this paper, we report another characteristic of the entanglement. The results and our conclusion are as follows. Result 1: The periodicity of diurnal variation in gas concentration changed with entanglement. Result 2: As a result of analyzing the gas concentration data separately for the four seasons of winter, spring, summer, and autumn, the seasonal dependence of the periodicity of diurnal variation due to entanglement was clarified. Conclusion: We reaffirmed the existence of the entanglement between biosensors due to the pyramid effects by a phenomenon different from Part IV of the paper series, Potential Power of the Pyramidal Structure. 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.
Since October 2007, we have been conducting rigorous scientific experiments to elucidate the so-called “pyramid power”. The experiments use a pyramidal structure (PS). In order to detect the PS effects, a biosensor is made from cucumber fruit sections and the released volatile components are analyzed as gas concentration. We reported the phenomenon of entanglement between biosensors in part IV of the paper series, Potential Power of the Pyramidal Structure. The entanglement affected the gas concentration of the biosensors 8 m away, but not the biosensors at the PS apex. In this paper, we report another characteristic of the entanglement. The results and our conclusion are as follows. Result 1: The periodicity of diurnal variation in gas concentration changed with entanglement. Result 2: As a result of analyzing the gas concentration data separately for the four seasons of winter, spring, summer, and autumn, the seasonal dependence of the periodicity of diurnal variation due to entanglement was clarified. Conclusion: We reaffirmed the existence of the entanglement between biosensors due to the pyramid effects by a phenomenon different from Part IV of the paper series, Potential Power of the Pyramidal Structure. 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.