Chapter 1: Introduction to Electromagnetic Waves

In 2014, a study by Chinese researchers was published, focusing on the microwave conductivity of electrolyte solutions. This research was significant for examining how electromagnetic waves interact with biological tissues that are rich in water and ions. The experiment utilized a sodium chloride (NaCl) solution, which is essentially salt composed of sodium and chloride ions.

The ions from sodium and chloride play a crucial role in the firing of nerve cells. The results indicated that this electrolyte is conductive to microwaves up to 20 GHz. It is reasonable to infer that if microwaves are pulsed at frequencies that match the activity of brain neurons, those neurons may synchronize their oscillations to those frequencies. This conclusion is supported by findings from MCS America regarding electromagnetic field sensitivity, which notes that the human body can act like an antenna, capturing signals and converting them into electrical currents.

These electrical currents are generated by ions moving through bodily tissues and blood vessels, which carry a saline fluid capable of conducting electricity. When these currents interact with cell membranes—often electrically charged—they attempt to resonate in tune with the current. One notable study demonstrated that cell phone microwaves pulsed at frequencies between 11 to 15 Hz altered the electroencephalograms (EEG) of 30 participants while they were asleep. Another study showed that recordings from 20 volunteers revealed evoked potentials at a frequency of 217 Hz.

Moreover, research from Australia revealed that not only can cell phone transmissions affect behavior during calls, but they can also cause lasting disruptions in brain wave patterns even after the device is turned off. To grasp this information fully, it is vital to recognize that the nervous system functions in a digital manner, with the frequency and number of nerve impulses enabling numerous neurons to synchronize during various neural activities. This could potentially allow for complete control over cognitive processes.

In one of the studies, participants were given a series of 100 questions ranging from easy to challenging. Following the test, they reported experiencing information that suggested answers to questions they had left blank, memory lapses for some correct answers, and inaccuracies in recalling their answers—all while unknowingly being exposed to radiation. After two weeks, these subjects were required to retake the test. The results of these studies were never published, but it seems that intelligence agencies were already exploring methods to implant thoughts into individuals' minds. One such approach utilized pulsed microwaves to transmit speech interpreted by the brain as ultrasound frequencies.

Individuals remain unaware of this influence since their brain does not consciously perceive the speech. Governments can easily manipulate the thoughts of their citizens or even foreign nationals by transmitting cell phone signals at brain frequencies. It is feasible to direct pulsed microwaves at specific individuals or an entire population if cell phone signals are modulated in brain frequencies. Furthermore, long electromagnetic waves, which can extend up to 300,000 kilometers in length, can reach the brains of people over vast distances. Currently, no laws exist globally—except in Chile and Brazil—that prohibit such actions against individuals' mental integrity.

Neurotechnologists around the world, who are often reluctant to disclose national security agreements they signed before beginning their research, are advocating for legislation to protect individuals from such mental manipulations.

Chapter 2: Understanding the Science Behind Microwaves

The first video titled "Havana Syndrome — Direct Microwave Energy Weapon Explained!" delves into the implications and mechanics behind the use of microwaves as a potential tool for influencing human behavior.

The second video, "Low Intensity EMFs Produce 5 Distinct Brain Effects; Cardiac, DNA, Hormonal, Oxidative Stress Effect," explores the various effects of low-intensity electromagnetic fields on brain function and overall health.