Secondary holodiffractional radiation of biological systems

Reproducible images of human fingertips' induced glow (Kirlian radiation) were captured despite extremely unstable nature of living systems' emission. The matrix of correlations between fingertips' radiation in the electromagnetic field of high frequency and systemic features of human organism has been studied.

Weak natural emission of biological object is enhanced and transformed into visual images by gas discharge processes, which proceed in the electromagnetic field of high frequency. Such secondary radiation was found to be reproducible only when special polyethylene membrane is placed between the glass surface of the camera screen and target fingertip (or other living object). Resulting images of fingertips' discharge coronas provide comprehencible information on the whole living system.

Present research resulted in the discovery of previously unknown phenomenon, which turned out to be specific for living systems. It is demonstrated that Kirlian radiation of fingertips can display almost exact replicas (holograms) of organism's internal organs and tissues. Each part of the body is able to provide holographic information on any problematic element of dynamic system. Holodiffractional nature of discovered phenomenon has been confirmed experimentally.

The discovery of new natural phenomenon represents a major step forward regarding both theoretical disciplines and practical biomedicine. Secondary holodiffractional radiation of body parts provides previously unavailable information on dynamic organization of the whole living system. Bioholographic information is already widely used for diagnostics of body/mind pathology.