A recent study by researchers from the University of Calgary and the National Research Council of Canada looked at an unusual phenomenon called a ‘biofoton’.
An experiment with mice and leaves of different plants produced physical evidence that living organisms can broadcast light that disappears after they are death. The study was published In the magazine physical chemical letters.
At first glance, the results of the experiment may seem strange. It is not easy to connect scientific studies of electromagnetic radiation with paranormal phenomena such as auras.
Dan Oblak, the senior author of the study,, however, claims that they have succeeded in detecting Ultra-Weak Photonemissie (UPE) from living organisms and plants, which confirms the existence of this phenomenon.
It is known that many biological processes produce flashes of light in the form of chemiluminescence. In recent decades, spontaneous emission of light waves in the range of 200 to 1000 nanometers has been included in various living cells, from cow tissue to bacterial colonies.
A possible source of this radiation is reactive oxygen species, which are formed in cells when exposed to high temperatures, toxins or shortcomings of nutrients.
In the presence of hydrogen peroxide, for example, fats and proteins can be changed, so that electrons broadcast photons when they return to their original positions.
The study opens the possibility of non-invasive health monitoring in both people and animals. The scientists used electrons-multiply rooms to compare the radiation of living and dead mice. Four mice were placed in a dark box and photographed an hour before and after euthanasia, while their body temperature maintained.
The results of the research showed that the number of photons broadcast after death decreased considerably. Similar experiments were conducted with leaves of watercress and umbrella tree (hepteakleurrum arboricola).
The researchers noted that damaged areas of the leaves glowed brighter than undamaged, which indicates a connection between stress and reactive oxygen species.
These results can form the basis for future health diagnostic methods, which means that the condition of the body can be determined by the luminescent level.
