What are biophotons?
Printable Version Biophotons, or ultraweak photon emissions of biological systems, are weak electromagnetic waves in the optical range of the spectrum – in other words: light. All living cells of plants, animals and human beings emit biophotons which cannot be seen by the naked eye but can be measured by special equipment developed by German researchers. This light emission is an expression of the functional state of the living organism and its measurement therefore can be used to assess this state. Cancer cells and healthy cells of the same type, for instance, can be discriminated by typical differences in biophoton emission. After an initial decade and a half of basic research on this discovery, biophysicists of various European and Asian countries are now exploring the many interesting applications which range across such diverse fields as cancer research, non-invasive early medical diagnosis, food and water quality testing, chemical and electromagnetic contamination testing, cell c
Biophotons are weak emissions of light radiated from the cells of all living things. A photon is a single particle of light. Plants, animals and humans generate up to 100 photons per second, per .15 square inches (1 sq. centimeter) of surface area. The light is too faint to be seen by the naked eye, but biophotons have been detected and verified using photomultiplier tubes. According to a leading researcher of biophotons, German biophysicist Fritz-Albert Popp, light is constantly being absorbed and remitted by DNA molecules within each cell’s nucleus. These biophotons create a dynamic, coherent web of light. A system that could be responsible for chemical reactions within the cells, cellular communication throughout the organism, and the overall regulation of the biological system, including embryonic development into a predetermined form. The laser-like coherence of the biophoton field is a significant attribute, making it a prime candidate for exchanging information in a highly funct
Biophotons are characterized by an extremely high degree of order and can be described as a type of biological laser light which is capable of interference and appears to be responsible for many effects which ordinary incoherent light could not achieve. Its high coherency lends the biophoton wave the capability of creating order and transmitting information while chaotic, incoherent light simply transmits energy. There are clear experimental indications that biophotons have an important regulating function not only within single cells, but also between your cells as a network. It is probable that you are influenced by a coherent biophoton field, which regulates functions on various levels of biological control and organization. Single cells seem to communicate with one another with the aid of the biophoton field by creating continuous waves. The biophoton field is likely a rigidly structured field of information and regulation that coordinates your individual cellular function in a hol
Biophotons, or ultraweak photon emissions of biological systems, are WEAK electromagnetic waves in the optical range of the spectrum – in other words: light. ALL living cells of plants, animals and human beings emit Biophotons, which can NOT be seen by the naked eye, but can be measured by special equipment developed by German researchers. This light emission is an expression of the functional state of the living organism and it’s measurement, therefore can be used to assess this state. Cancer cells and healthy cells of the same type, for instance, can be discriminated by typical differences in Biophoton emission. After an initial decade and a half of basic research on this discovery, biophysicists of various European and Asian countries are now exploring the MANY interesting applications, which range across such diverse fields as cancer research, non-invasive early medical diagnosis, food and water quality testing, chemical and electromagnetic contamination testing, cell communication
