To date, numerous books have been published on so-called “pyramid power” but there have been few academic papers on this subject other than our own. Since 2007, to demonstrate the pyramid power, we have undertaken strictly scientific experiments using a pyramidal structure (PS) that we have carefully constructed. In previous reports, we used the edible cucumber, Cucumis sativus as an effective and practical biosensor. Through measurement and analysis of volatile components (gas concentrations) emitted from the biosensor, we were able to demonstrate the existence of the pyramid power and revealed some of its characteristics. In a paper published in 2022, we showed that gas concentration release from this biosensor displayed a circadian rhythm and that this rhythm changed with the season. Based on the result that the biosensor had a periodic diurnal oscillation called a circadian rhythm, we questioned whether or not pyramid power and Bio-Entanglement also had periodic diurnal oscillations. In this paper, we investigated that possibility. Our results have shown that pyramid power and Bio-Entanglement do not exhibit significant periodic diurnal oscillations. Thus we have revealed for the first time that the field associated with pyramid power is a type of static field that always exerts a constant influence. 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.
References
[1]
Ostrander, S. and Schroeder, L. (1970) Psychic Discoveries Behind the Iron Curtain. Prentice-Hall, Inc., Upper Saddle River.
[2]
Flanagan, P. (1973) Pyramid Power: The Science of the Cosmos. PhiSciences Press, Cottonwood.
[3]
Flanagan, P. (1973) Pyramid Power: The Millennium Science. Earthpulse Press, Inc., Anchorage.
[4]
Flanagan, P. (1981) Pyramid Power II: The Scientific Evidence. Innergy Publications, Tucson.
[5]
Toth, M. and Nielsen, G. (1974) Pyramid Power. Destiny Books, Rochester.
[6]
Schul, B. and Pettit, E. (1975) The Secret Power of Pyramids. Fawcett Gold Medal, New York.
[7]
Wyckoff, J. (1976) Using Pyramid Power. Kensington Publishing Corp., New York.
[8]
Stark, N. (1977) The First Practical Pyramid Book: Free Energy for Beauty, Health, Gardening, Food Dehydration, and Meditation. Sheed Andrews and McMeel, Inc., Kansas City.
[9]
King, S. (1977) Pyramid Energy Handbook. Warner Books, New York.
[10]
Gray, C.G. and Gray, V. (1979) Secrets from Beyond the Pyramids. The Alternative Universe Edmonton, Alberta.
[11]
Schul, B. and Pettit, E. (1979) Pyramid Power a New Reality. Stillpoint, Walpole.
[12]
Dunn, C. (1998) The Giza Power Plant: Technologies of Ancient Egypt. Bear & Company, Rochester.
[13]
Childress, D.H. (2000) Technology of the Gods: The Incredible Sciences of the Ancients. Adventures Unlimited Press, Kempton.
[14]
Elfouly, G. (2012) The Great Pyramid System: The Blue Light. An Amazon Company, North Charleston.
[15]
Creighton, S. and Osborn, G. (2012) The Giza Prophecy. Bear & Company, Rochester.
[16]
Kiss, Z.J. (2015) The Quantum Impulse and the Space-Time Matrix: The Power of the Hydrogen Process and the Pyramid. Trafford Publishing, Bloomington.
[17]
Lyke, S. (2018) The Great Pyramid’s Laser Power Plant.
[18]
Brown, J.E., Hurtak, J.J. and Hurtak, D. (2019) Giza’s Industrial Complex: Ancient Egypt’s Electrical Power and Gas Generating Systems. Academy for Future Science, Los Gatos.
[19]
Rubik, B. (2016) Interactions of Pyramidal Structures with Energy and Consciousness. The Journal of Natural and Social Philosophy, 12, 259-275. https://www.researchgate.net/publication/309407219
[20]
Takagi, O., Sakamoto, M., Kokubo, H., Yoichi, H., Kawano, K. and Yamamoto, M. (2013) Meditator’s Non-Contact Effect on Cucumbers. International Journal of Physical Sciences, 8, 647-651. https://doi.org/10.5897/IJPS2012.3800
[21]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2015) Discovery of an Anomalous Non-Contact Effect with a Pyramidal Structure. International Journal of Sciences, 4, 42-51. https://doi.org/10.18483/ijSci.714
[22]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2016) An Unknown Force Awakened by a Pyramidal Structure. International Journal of Sciences, 5, 45-56. https://doi.org/10.18483/ijSci.1038
[23]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2019) Discovery of an Un-Explained Long-Distance Effect Caused by the Association between a Pyramidal Structure and Human Unconsciousness. Journal of International Society of Life Information Science, 37, 4-16. https://www.researchgate.net/publication/331917237
[24]
Takagi, O., Sakamoto, M., Yoichi, H., Kawano, K. and Yamamoto, M. (2019) Potential Power of the Pyramidal Structure. Natural Science, 11, 257-266. https://doi.org/10.4236/ns.2019.118026
[25]
Takagi, O., Sakamoto, M., Yoichi, H., Kawano, K. and Yamamoto, M. (2020) Potential Power of the Pyramidal Structure II. Natural Science, 12, 248-272. https://doi.org/10.4236/ns.2020.125022
[26]
Takagi, O., Sakamoto, M., Yoichi, H., Kawano, K. and Yamamoto, M. (2020) Potential Power of the Pyramidal Structure III: Discovery of Pyramid Effects with and without Seasonal Variation. Natural Science, 12, 743-753. https://doi.org/10.4236/ns.2020.1212066
[27]
Takagi, O., Sakamoto, M., Kawano, K. and Yamamoto, M. (2021) Potential Power of the Pyramidal Structure IV: Discovery of Entanglement Due to Pyramid Effects. Natural Science, 13, 258-272. https://doi.org/10.4236/ns.2021.137022
[28]
Takagi, O., Sakamoto, M., Kawano, K. and Yamamoto, M. (2021) Potential Power of the Pyramidal Structure V: Seasonal Changes in the Periodicity of Diurnal Variation of Biosensors Caused by Entanglement Due to Pyramid Effects. Natural Science, 13, 523-536. https://doi.org/10.4236/ns.2021.1312046
[29]
Takagi, O., Sakamoto, M., Kawano, K. and Yamamoto, M. (2022) Potential Power of the Pyramidal Structure VI: Pyramid Effects Due to Potential Power and Pyramid Effects Due to Bio-Entanglement. Natural Science, 14, 251-263. https://doi.org/10.4236/ns.2022.146025
[30]
Takagi, O., Sakamoto, M., Kawano, K. and Yamamoto, M. (2023) Potential Power of the Pyramidal Structure VII: Effects of Pyramid Power and Bio-Entanglement on the Circadian Rhythm of Biosensors. Natural Science, 15, 19-38. https://doi.org/10.4236/ns.2023.151003
[31]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2018) Discovery of Seasonal Dependence of Bio-Reaction Rhythm with Cucumbers. International Journal of Science and Research Methodology, 9, 163-175. https://www.researchgate.net/publication/331917254
[32]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2018) Relationship between Gas Concentration Emitted from Cut Cucumber Cross Sections and Growth Axis. International Journal of Science and Research Methodology, 9, 153-167. https://www.researchgate.net/publication/331917255
[33]
Takagi, O., Sakamoto, M., Kawano, K. and Yamamoto, M. (2022) Seasonal Changes in the Circadian Rhythm of Gas Released from Harvested Cucumbers. Natural Science, 14, 503-516. https://doi.org/10.4236/ns.2022.1411045
[34]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2016) Necessary Condition of an Anomalous Phenomenon Discovered by a Pyramidal Structure. Journal of International Society of Life Information Science, 34, 154-157. https://www.researchgate.net/publication/307283729
[35]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2019) Discovery from the Experiment on the Unexplained Functions of the Pyramidal Structure—The Phenomenon Caused by the Personal Relationship. Journal of International Society of Life Information Science, 37, 60-65. https://www.researchgate.net/publication/331916903
[36]
Takagi, O., Sakamoto, M., Yoichi, H., Kawano, K. and Yamamoto, M. (2020) Scientific Elucidation of Pyramid Power: I. Journal of International Society of Life Information Science, 38, 130-145. https://www.researchgate.net/publication/344603987
[37]
Takagi, O., Sakamoto, M., Yoichi, H., Kawano, K. and Yamamoto, M. (2020) Chapter 4. Meditator’s Non-Contact Effect on Cucumbers. In: Rafatullah, M., Ed., Theory and Applications of Physical Science, Vol. 3, Book Publisher International, London, 105-113. https://www.researchgate.net/publication/339030704
[38]
Kokubo, H., Takagi, O. and Koyama, S. (2010) Application of a Gas Measurement Method-Measurement of Ki Fields and Non-Contact Healing. Journal of International Society of Life Information Science, 28, 95-103. https://www.researchgate.net/publication/228957054
[39]
Kokubo, H., Koyama, S. and Takagi, O. (2010) Relationship between Biophotons and Gases Generated from Cucumber Pieces. Journal of International Society of Life Information Science, 28, 84-94. https://www.researchgate.net/publication/267409897
[40]
Goodspeed, D., Liu, J.D., Chehab, E.W., Sheng, Z., Francisco, M., Kliebenstein, D.J. and Braam, J. (2013) Postharvest Circadian Entrainment Enhances Crop Pest Resistance and Phytochemical Cycling. Current Biology, 23, 1235-1241. https://doi.org/10.1016/j.cub.2013.05.034
[41]
McClung, C.R. (2011) The Genetics of Plant Clocks. In: Advances in Genetics, Vol. 74, Elsevier, Amsterdam, 105-139. https://doi.org/10.1016/B978-0-12-387690-4.00004-0
[42]
Endo, M., Shimizu, H., Nohales, M.A., Araki, T. and Kay, S.A. (2014) Tissue-Specific Clocks in Arabidopsis Show Asymmetric Coupling. Nature, 515, 419-422. https://doi.org/10.1038/nature13919
[43]
Farmer, E.E. (2013) Surface-to-Air Signals. Nature, 411, 854-856. https://doi.org/10.1038/35081189
[44]
Ozawa, R., Arimura, G., Takabayashi, J., Shimoda, T. and Nishioka, T. (2000) Involvement of Jasmonate- and Salicylate-Related Signaling Pathways for the Production of Specific Herbivore-Induced Volatiles in Plants. Plant and Cell Physiology, 41, 391-398. https://doi.org/10.1093/pcp/41.4.391
[45]
De Moraes, C.M., Mescher, M.C. and Tumlinson, J.H. (2001) Caterpillar-Induced Nocturnal Plant Volatiles Repel Conspecific Females. Nature, 410, 577-580. https://doi.org/10.1038/35069058
[46]
Yoneya, K. and Takabayashi, J. (2014) Plant-Plant Communication Mediated by Airborne Signals: Ecological and Plant Physiological Perspectives. Plant Biotechnology, 31, 409-416. https://doi.org/10.5511/plantbiotechnology.14.0827a
[47]
Šimpraga, M., Takabayashi, J. and Holopainen, J.K. (2016) Language of Plants: Where Is the Word? Journal of Integrative Plant Biology, 58, 343-349. https://doi.org/10.1111/jipb.12447
[48]
Pélissier, R., Violle, C. and Morel, J.B. (2021) Plant Immunity: Good Fences Make Good Neighbors? Current Opinion in Plant Biology, 62, Article ID: 102045. https://doi.org/10.1016/j.pbi.2021.102045
[49]
Marmolejo, L.O., Thompson, M.N. and Helms, A.M. (2021) Defense Suppression through Interplant Communication Depends on the Attacking Herbivore Species. Journal of Chemical Ecology, 47, 1049-1061. https://doi.org/10.1007/s10886-021-01314-6
[50]
Suda, H. and Toyota, M. (2022) Integration of Long-Range Signals in Plants: A Model for Wound-Induced Ca2+, Electrical, ROS, and Glutamate Waves. Current Opinion in Plant Biology, 69, Article ID: 102270. https://doi.org/10.1016/j.pbi.2022.102270
