Abstract
Up now, the communication between brains of different humans or animals has been confirmed and confined by the sensory medium and motor facilities of body. Recently, direct brain-to-brain communication (DBBC) outside the conventional five senses has been verified between animals and humans. Nevertheless, no empirical studies or serious discussion have been performed to elucidate the mechanism behind this process. The validation of DBBC has been documented via recording similar pattern of action potentials occurring in the brain cortex of two animals. With regard to action potentials in brain neurons, the magnetic field resulting from the action potentials created in neurons is one of the tools where the brain of one animal can affect the brain of another. It has been shown that different animals, even humans, have the power to understand the magnetic field. Cryptochrome, which exists in the retina and in different regions of the brain, has been confirmed to be able to perceive magnetic fields and convert magnetic fields to action potentials. Recently, iron particles (Fe3O4) believed to be functioning as magnets have been found in various parts of the brain, and are postulated as magnetic field receptors. Newly developed supersensitive magnetic sensors made of iron magnets that can sense the brain's magnetic field have suggested the idea that these Fe3O4 particles or magnets may be capable of perceiving the brain's extremely weak magnetic field. The present study suggests that it is possible the extremely week magnetic field in one animal's brain to transmit vital and accurate information to another animal's brain.
Highlights
Brain-to-brain communication, posited as one of the multiple kinds of telepathies, is the direct conveyance of feelings from one animal to another without using the common sensory channels of communication
The key factor in producing brain electromagnetic fields is the action potential (Hales, 2014), a phenomenon that occurs in neurons resulting in membrane depolarization, with the departure of ions through the cell membrane (Cifra et al, 2011) producing an ion currents that is always associated with a magnetic field perpendicular to its direction according to the right-hand rule (Singh, 2014)
It may be hypothesized that large synchronized outbursts of cortex neurons in the frontal lobe, an area extensively involved in social cognition in a wide variety of mammalian species from rodents to primates (Adolphs, 2001; Amodio and Frith, 2006; Cao et al, 2018; Chang et al, 2013; Eliades and Miller, 2017; Forbes and Grafman, 2010; Liang et al, 2018; Miller, Thomas, Nummela and de la Mothe, 2015; Pais-Vieira et al, 2013), produces electromagnetic fields around the brain
Summary
Brain-to-brain communication, posited as one of the multiple kinds of telepathies, is the direct conveyance of feelings from one animal to another without using the common sensory channels of communication. John Taylor and Eduardo Balanovski first discussed the electromagnetic fields emitted by human bodies as a potential mediator for telepathy (Taylor and Balanovski, 1979) and rejected this possibility according to the scientific evidence at that time. Their perception of the brain was as solely a physical body which ruled out biological processes and did not take into account the induction of action potentials (Roth and Basser, 1990) in the nerves or the existence of the protein Cryptochrome. In support of McFadden's hypothesis, researchers have attempted to decode human brain thoughts and emotions while recording electromagnetic activity in the cerebral cortex, thereby translating thoughts in the human brain into reading the brain as a text
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