Microvita Research e.V.
Mittwoch, 11. Februar 2015
Another Thought Experiment
We have arrived at an interesting point:
Consider a neuronal assembly (A), i.e. a group of neurons that maintain strengthened synaptic connections with one another, so that they are more likely to be active all together at the same time. In these assemblies, the neurons are not necessarily all physically close to each other. They can be distributed across various parts of the brain. Moreover, a single neuron can belong to several different assemblies and can be recruited into new assemblies at any time (1).
Now, consider a second neuronal assembly (B) with
We already indicated that the activated state of neuronal assemblies is primarily unstable,
but can be stabilized by a Quantum Zeno-like effect produced by sets of microvita (2).
So, imagine a set of synchronizable microvita
In the synchronized state, they will produce a bosonic field, which interacts with A or B respectively. The interactions amount to the effect that d ≈ ∆t, i.e. that the duration of the synchronized state of microvita approximates the duration of the activated state of the neuronal assembly.
Now, consider two sets of microvita, one positive and one negative. They will be able to produce different bosonic fields at different frequencies. Field A will stabilize the neuronal assembly A, and field B will do the same to the neuronal assembly B. In case that the synchronization shifts from the negative to the positive set, we can predict the following changes in the neuronal assemblies:
Which means that the coherence in assembly A and B (inactive state green) changes due to a microvita vector labeled positive, if the related sentiments, memories or opinions become positive - conversely negative.
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