The Intention Experiment: Use Your Thoughts to Change the World. Lynne McTaggart

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brightly itself with extra photons, as if it were rejecting any excess. Popp called this phenomenon ‘delayed luminescence’, and assumed it was a corrective device to help the organism maintain its level of light at a delicate equilibrium. In Van Wijk’s experiment, the photon emissions of algae showed highly significant shifts from normal, when plotted on a graph. Van Wijk had generated some of the first evidence that healing light may affect anything in its path.22

      During his long recovery, Korotkov, a conventional professor of quantum physics at St Petersburg State Technical University in Russia, pondered on a lecture on Kirlian effects and healing that he had attended earlier that year. He had been so intrigued that he wondered if he could improve on what Kirlian claimed to be doing: capturing someone’s life energy on film.

      Semyon Davidovich Kirlian was an engineer who had discovered in 1939 that photographing living things that had been exposed to a pulsed electromagnetic field would capture what many have termed the human ‘aura’. When any conductive object (like living tissue) is placed on a plate made of an insulating material, such as glass, and exposed to high-voltage, high-frequency electricity, a low current results that creates a corona discharge, a halo of coloured light around the object that can be captured on film. Kirlian claimed that the state of the aura reflected the person’s state of health; changes in the aura were evidence of disease or mental disturbance.

      Lying for months in his bed, Korotkov realized that if he was going to discover more about how to capture this mysterious light Kirlian claimed was so vital to health, he was going to have to give up his day job. He knew that the involvement of a well-established quantum physicist such as himself would lend the technique scientific legitimacy and his technical ability might also help advance the technology. Perhaps he could even devise a means of depicting the light in real time.

      After he got back up on his feet, Korotkov spent months developing a mechanism, which he called the Gas Discharge Visualization (GDV) technique, that made use of state-of-the-art optics, digitized television matrices and a powerful computer. Ordinarily, a living thing will dribble out the faintest pulse of photons, perceptible only to the most sensitive equipment in conditions of utter pitch black. As Korotkov realized, a better way to capture this light was to stir up photons by ‘evoking’, or stimulating them into an excited state so that they would shine millions of times more intensely than normal.

      His equipment blended several techniques: photography, measurements of light intensity and computerized pattern recognition. Korotkov’s camera would take pictures of the field around each of the 10 fingers, one finger at a time. A computer program would then extrapolate from this a real-time image of the ‘biofield’ surrounding the organism and deduce from it the state of the organism’s health.

      Some 40 years after Backster first employed his crude polygraph mechanism to register the effect of thoughts, Korotkov verified those early discoveries with state-of-the-art equipment. He hooked up a potted plant to his GDV machine and asked his researchers to think of different emotions – anger, sadness, joy – and then positive and negative intentions towards the plant. Whenever a participant mentally threatened the plant, its energy field diminished. The opposite occurred if people approached the plant with water or feelings of love.

      Largely because he lacked scientific credentials, Backster was never recognized for his contributions. He had stumbled across the first evidence that living things engage in a constant two-way flow of information with their environment, enabling them to register even the nuances of human thought. The more advanced scientific knowledge of physicists Fritz Popp and Konstantin Korotkov was needed to uncover the actual mechanism of that communication. Their research into the nature of quantum light emissions from living organisms suddenly made sense of Backster’s findings. If thoughts are another stream of photons, it is perfectly plausible that a plant could pick up the signals and be affected by them.

      The work of Backster, Popp and Korotkov suggested something profound about the effect of intention. Every last thought appeared to augment or diminish something else’s light.

      Notes - Chapter 3: The Two-Way Street

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