Under certain conditions, the nervous system can learn to accept and interpret an external signal as its own. Upon a sensory deprivation experiment, when the system is deprived of all external input and a hallucination-like state settles in, the provision of input in an electromagnetic manner can be accepted and can trigger the same responses as an internal input.
Information between two brains will flow freely between them if all their macrocircuits and microcircuits are synchronized (aligned). Similarly for brain versus an AI system i.e. an electromagnetic simulation of brain activity.
What is expected to be the first step of brain hacking or individual-specific targeting? Entrainment for synchronization or convergence to a standard brain activity or cognitive model (simulation).
We frequently hear the phrase “we are in sync”, when people have the same thoughts simultaneously. Different studies conducted in social settings provide evidence for brain synchronization between interacting subjects. As one person has a thought and expresses it and the other tries to understand the thought by replicating it, the brain activity of the two persons focusing on the same thought will be similar.
We may have also heard that spouses who have lived together for long may complete each other's sentences. It has been alleged that a military person, Col. Alexander, participated in an experiment where using brain computer interface techniques, the neural activity of two subjects had been aligned, thus resulting in knowledge flowing freely from one to another. As the two subjects allegedly had security clearances, it had been mentioned that “secrets began to slip”.
It is alleged that if the brain macrocircuits and microcircuits of two persons are synchronized, information flows freely between them. Upon synchronization of a person to a specific standard, any previously recorded brain signals representing different experiences can be applied to the brain and be interpreted by it. This would be equivalent to the insertion of a signal in the brain, which would result in the replication of an experience.
Hypnoidal frequencies
Individuals targeted with electromagnetic harassment report that when they are in a dark room they can see in their visual field a flickering light of 3.3 Hz while at the same time they have a pulsing tinnitus of the same frequency. This means that entrainment patterns are imposed on major sensory modalities such as vision and audition and that these patterns are found in a frequency range that can be referred to as "hypnoidal".
Use of hypnoidal frequencies, such as frequencies of the delta range (0.5 to 4 Hz) could induce a hypnotic state which allows for enhanced suggestibility and possibly subconscious access. Therefore, the acceptability to an external signal would be increased.
We know of the technique termed "Radio Hypnotic Intracerebral Control" (RHIC) which is allegedly mentioned in a manual from CIA sources. It has been described as "the ultra-sophisticated application of post-hypnotic suggestion triggered at will by radio transmission. It is a recurring state, re-induced automatically at intervals by the same radio control".
Ross Adey, a researcher who demonstrated that ELF/EEG frequencies modulated on a carrier wave can be impressed on the brain, is alleged to have imposed a 4.5 Hz (theta) frequency on his subjects. This was a frequency he had measured from the hippocampus and other areas. This choice may be related to his experimental work implicating information consolidation and conditioning. It is possible that the radio signals mentioned for RHIC could be modulated with hypnoidal frequencies.
Frequencies altering brain signalling through ion entrainment
An old saying suggests drinking a glass of milk to facilitate sleeping. The study entitled "Ionic control of sleep and wakefulness" suggests that ion regulation of major neural signalling ions, such as calcium, suffices to determine brain state.
Frequencies targeting major neural circuit loops
The brain consists of neural circuits which include macrocircuits and microcircuits, while circuits may also interact to create loops (cf. CBGTC loop). It is necessary to perform entrainment of the major macrocircuits of the brain, e.g. major sensory modalities, such as vision and also related elements, such as the speech center (for which advanced decoding studies have been conducted [*]).
A frequency range corresponding to most brain loops is 12 to 16 Hz.