They Are Fucking Up Your Fields
>The heart is the most powerful source of electromagnetic energy in the human body, producing the largest rhythmic electromagnetic field of any of the body’s organs.
>The heart’s electrical field is about 60 times greater in amplitude than the electrical activity generated by the brain.
This field, measured in the form of an electrocardiogram (ECG), can be detected anywhere on the surface of the body. Furthermore, the magnetic field produced by the heart is more than 100 times greater in strength than the field generated by the brain and can be detected up to 3 feet away from the body, in all directions, using SQUID-based magnetometers
>All living cells of plants, animals and humans continuously emit ultraweak biophotons (ultraweak electromagnetic waves) in the optical range of the spectrum, which are associated with their physiological states and can be measured. Neural cells also continuously emit biophotons. The intensity of biophotons is in direct correlation with neural activity, cerebral energy metabolism, EEG activity, cerebral blood flow and oxidative processes.
>There are significant correlations between the fluctuations in biophoton emission and fluctuations in the strength of electrical alpha wave production in the brain.
>Biophotons may represent a complex cell-to-cell communication that relies upon speed of light transmission. The physics of light seems to fit the biological observations. Light is the most efficient and fastest mediator of information in the world. < The coherent property of biophotons may have a profound effect on their ability to influence information transfer. Frequency coding gives light a capability of encoding information from DNA in biophotons.
>Biophoton communication (optical communication) can be performed by natural photosensitive biomolecules of cells and neurons. Biophotons can be absorbed in the visible range
by natural chromophores such as porphyrin rings, flavinic, pyridinicrings, lipid chromophores, aromatic amino acids, etc. Mitochondrial electron transport chains contain several chromophores,among which cytochrome oxidase enzymeare most prominent. Photosensitive biomolecules can transfer the absorbed biophoton energy to nearby biomolecules by resonant energy transfer, which can induce conformational changes and trigger/regulate complex signal processes in cells. According to Cilento 1988, biochemical reactions take place in such a way, that a biophoton is borrowed from the surrounding electromagnetic bath, and then it excites the transition state complex, and finally returns to an equilibrium state with inthe surroundings of the complex
Article Here <Sciencyish>
https://www.heartmath.org/research/science-of-the-heart/energetic-communication/
Articles Here: <Science Stuff>
https://www.qigonginstitute.org/category/60/biophotonics
Article Here: <Hippie Dippie>
https://medium.com/@michel.kana/6th-sense-are-we-communicating-using-invisible-light-biophotons-and-dna-part-2-1166bed3a852
Article Here: Current Technology <Known>
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3084502/