Color Kirlian Spectral Analysis. Color Observation with Visual Analyzer
Prof. Marin Marinov, DPhSc
Dr. Ignat Ignatov
2008г. Sofia, Bulgaria
Scientific and Research Center of Medical Biophysics, Sofia, Bulgaria
www.medicalbiophysics.dir.bg
Experiments were effected with color Kirlian photography for the purpose of seeking a dependence between the colors of the electric aura and the bioinfluence abilities of a certain person. For the effectuation of a precise analysis, the water spectrum of people pretending to have bioabilities was also tested. They influence on the samples of deionized water through biophysical fields in “give” and “take” energy mode (Ignatov, Antonov, Galabova, 1998). These and also some additional research indicated that people with a predominance of the color red in their electric aura have “lowered vital” energy. People with blue and violet aura color have pronounced bioinformational abilities. Vitality of man is related also to the orange, the yellow and the blue-green color. Does this phenomenon have its scientific explanation? The Kirlian effect in its essence is a selective high-frequency discharge. An auto-electron emission is also observed. The optic transitions depend on the energy of the detached photons. In the red color, this energy is 1.82 electron volts (еV). In the orange color – 2.05, in the yellow – 2.14, in the blue-green (cyan) – 2.43, in the blue – 2.64, and in the violet – 3.03 electron volts (Ignatov, 2007).
Wave length
With Kirlian effect, which is a high-frequency electric discharge in gas, the color of light depends only on the gas. It does not depend on the electrodes. It is apparent that the color Kirlian aura carries biological information from the object itself. The observed phenomenon cannot be described and explained from the point of view of the modern physical notions for the color of the light of the gas discharge. The fact that different colors are observed, clearly confirms the possibility for selective influence of the researched object. The methodic and the results are a novelty, because local energy states of the researched object are demonstrated depending on the colors in its electric aura. This, as a fact, gives new opportunities to the biological and to the physical aspect of the object. New opportunities are opened for the characterization of the biological properties of objects after a certain influence. Dr. Ignatov’s methodic for Color Kirlian spectral analysis © can be defined. (Marinov, 2008).
It is possible for new notions to be uncovered in color vision. It is not clear whether the green color, which we see, is an averaged effect between the yellow and the blue color, or in some cases corresponds to a wavelength analogous to the green color of the spectrum.
Brain can register green color as a spectrometer, i.e., at a specific length of the electromagnetic waves. It can also register green color as a mixture between yellow and blue color. The perception of colors by the visual analyzer cannot be defined as a spectrometer.
As an example, the mixture of electromagnetic waves, which correspond to the green and the red color, is perceived as yellow. It is accepted that the blue-yellow and the green-red pairs (Hering) are in effect in the vision act. The vision analyzer has the property to analyze as colors certain diapasons of the optic spectrum. The mixing of the green and the red color does not make a median color. The brain perceives it as yellow. When electromagnetic waves corresponding to green and red are emitted, the brain perceives a “median decision” – yellow.
Additive color mixing
In the same way, blue and yellow are perceived as green. This means that information is being transferred between the blue-yellow and the green-red color of Hering. This is, in effect, when the visual analyzer “takes a decision” for colors to which it has greater sensitivity. Analogously, the green and the blue color are perceived as cyan. We observe one orange with orange color. The electromagnetic waves, which are reflected from the orange corresponding of yellow and red colors. Vision sensitivity to the violet, the blue and the red color is the lowest. The mixing of electromagnetic waves corresponding to blue and red is perceived as violet. Yet when electromagnetic waves that correspond to more colors are mixed, the brain does not perceive them as separate or “median decision”, but as white. The notion for color is not determined simply by the wavelength. The analysis is executed by the brain “biocomputer” and the notion of color in its essence is a product of our consciousness (Marinov, Ignatov, 2008).
The report and research of Prof. Marin Marinov © and Dr. Ignat Ignatov © are copyrighted. The report has been presented at the International Medical Congress EUROMEDICA, European Academy of Natural Sciences, Hanover, 2008.
Dr. Ignatov’s methodic for Color Kirlian spectral analysis© www.medicalbiophysics.dir.bg/en/kirlian_effect.html
Dr. Ignatov, Prof. Tyminskiy, Dr. Tyminskiy,
Dr. Khodjaeva, Koch’s Medal 2008
