Scientists increasingly agree with the poem about the direct human experience: we are more than just atoms and molecules that make up the body of us, we are beings of light. Biophotons are emitted from the human body, can be released by mental intention, and could modulate the fundamental processes within the communication between cells and DNA.
Nothing is more amazing than the fact extremely improbable that we exist. Often we ignore this fact, forgetting the reality that instead of being something there, could there be anything, that is why there is a universe (pithy of conscious of himself through us) and not some completely unconscious of the vacuum itself?
Keep in mind that light, air, water, and minerals of the earth’s crust, and from information at least 3 billion years contained in the cell nucleus of a diploid zygote is formed, the human body, and the body of a soul able at least to try to understand his bodily and spiritual origins.
Given our existential condition, insanity and bodily incarnation as a whole, and considering that our earthly existence is partially composed of sunlight and require continuous consumption of light condensed in the form of food, would not sound too exaggerated as our body emits light.
Indeed, the human body emits biophotons, also known as ultra-weak photon emission (ultraweak photon emissions-UPE), with a visibility of 1 000 times lower than our eye sensitivity. Though not visible to us, these particles of light (or where depends on how do you measure them) are the visible part of the electromagnetic spectrum (380-780 nm) and are detectable by sophisticated modern instrumentation.
The physical and “mental” eye emits light
The eye itself, which is continually exposed to strong ambient photons that pass through the various ocular tissues, emits the photon emission induced by ultra weak light visible. It was released even hypothesize that visible light induces bioluminescent delayed within the eye tissue exposed, providing an explanation for the origin of the remaining retinal image.
These emissions of light have been correlated with the metabolism of cerebral energy and oxidative stress of the brains of mammals. And yet the emissions are not biofotonice required epiphenomenal (minor importance).
The hypothesis of Bókkon suggests that photons released by chemical processes within the brain produce images during visual imagery biophysical, and a recent study has found that when subjects were actively imagining light in a very dark medium, their intention has produced a significant increase in photon emissions ultraweak.
This is consistent with an emerging point of view according to which biophotons are not only the cellular-metabolic byproducts but rather because the intensity of the biophotons can be higher inside the cell than outside. It is possible that the mind can access this gradient (difference) energy to create the intrinsic perception of biophysical during visual imagery.
Cells and our DNA uses biophotons to store and communicate information.
Apparently, biophotons are used by the cells of many living organisms in order to communicate, which facilitates the transfer of energy/information that is a couple of orders of size faster than diffusion. According to a study from 2010, “Communication from cell to cell by biophotons has been demonstrated in plants, bacteria, granulocytes neutrophils and the renal cells.
The researchers were able to prove that “.. .the specter through the stimulation of light (infrared, red, yellow, blue, green and white) at one end of the sensor or spinal nerve root engine resulted in a significant increase in biophotonics activity at the other end. ” Researchers have interpreted their discovery suggesting that stimulation by light could generate biophotons that circulate along nerve fibers, perhaps as the neural communication signals “.
The production of biophotons in the body
Because your body’s metabolism change in a circadian manner, biophotons emissions also vary along the time axis. Research has been made, distinct anatomical locations of the biophotonics where the emissions are stronger and weaker, depending on the time of day.
Photon counting fluctuations in general within the body were lower in the morning than the afternoon. Thorax-abdomen region is less and more steadily. Upper limbs and head region broadcast most and ever more intense throughout the day.
Spectral analysis of low emissions and high intermediate from the top front of the right foot, the forehead and palms in the range of sensitivity of fotomultiplicatorului showed a wider contribution to the emission spectrum of the domain 420-470 spontaneous than a hand in autumn/winter. Luminescent spectrum shifted from hand showed a significant release in the same domain as the spontaneous emission.
The researchers concluded that “the data suggest that the spectral measurements could equally well to provide quantitative data on the individual model of anti-oxidative and peroxidative in vivo”