Using Brains as Sensors of the Magnetic Fields Produced by Other Brains


" The effects of transcranial magnetic stimulations (TMS) show that the human brain is impacted by some magnetic fields (EMFs). Moreover, after a delay, it produces potentials that reveal a subsequent processing of this impact. The human brain might also be sensitive to very weak magnetic fields of extremely low frequencies (vwEMFelf). Namely, to the vwEMelf produced by the brain of other persons when they process visual stimuli. In effect, two studies report that the event-related brain potentials (ERPs) that are evoked by presenting a picture to a participant can be modulated by simultaneously presenting a picture to a partner. To confirm it here, we followed most of the methods of these studies. We recorded the ERPs evoked by presenting, at each trial, the photograph of a face. Simultaneously and, most importantly, privately, we presented a partner with the same or with a different face photograph. ERPs of participants were found to depend on that sameness (p<0.001), unbeknownst to them. These joint processing effects (JPEs), confirm a sensitivity of the human brain to the vwEMFelf produced by other brains." {Credits 1}

" In the present attempt at replicating the sensitivity found in [20 & 21], we thus used only this announcement. On the other hand, we looked at whether the conclusions of these studies could be extended to other circumstances. Namely, whether the effects could also be obtained 1) when using a type of images other than that used in [20, 21] and 2) when the two partners of each pair of participants were placed a bit farther from each other and in different (but adjacent) rooms." {Credits 1}

" Each individual was seated in front of a computer screen in a room that was adjacent to the room in which their partner was seated. The wall separating the two rooms had a double glass window that was covered by an opaque curtain on both sides. The curtains were open during the electrode cap setup so that partners could see each other. This was done to help them feel in the presence of their partner later, that is, during the experiment. The curtains were closed right before the start of the experiment and for its entire duration to prevent participants from seeing the face shown to partners and to prevent any detection of the partner’s reactions to his/her stimuli." {Credits 1}

" Figure 2 (above) shows the ERPs evoked by the face photographs of the block where the two face photographs of each trial were always the same and those of the block where they were different. The former were more positive than the latter at all electrodes in the N400 time window and at all electrodes except Fp1/2 in the LPP time window" {Credits 1}

" The ERP differences found were obtained in conditions similar to those of the first two studies [20 & 21]. Namely, partner-participants were close others. They were thus people whose brain had already been exposed to the vwMFesf of their partner. This suggests that the sensitivity to vwMFesf is very specific, which is confirmed by the dependence of ERPs on subtle differences. Namely, on the differences that exist between the color front view of two faces. This means that the vwMFesf produced by the brain of a person who is processing a stimulus are specific of that stimulus, in addition to being specific of the person. It also means that the brain of close others can detect these specificities" {Credits 1}

Well, it's another remote influence experiment... I don't know if it will be the brain's magnetic fields directly or perhaps (it's my personal opinion) through the mediation of the earth's geomagnetic field, or with another precursor mechanism... since for example also biophotons interact with the geomagnetic field (Persinger 1, Persinger 2) it It is what they need to explain, a mechanism, because already in two different rooms it is a bit far for a direct perception... or maybe not, well I'll leave it there.

{Credits 1} 🎪 Jeuland, É.; Lenne, M.; Jarry, F.; Debruille, J.B. Using Brains as Sensors of the Magnetic Fields Produced by Other Brains. Preprints 2022, 2022070120 (doi: 10.20944/preprints202207.0120.v1). © 2022 by the author(s). This is an open access article distributed under the terms of the Creative Commons Attribution 4.0 International License.


Last modified on 04-Aug-22

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