A new, or modified, form of cultured growth has been developed from human oral filament samples that are characteristic of the so-called "Morgellons" condition. One of the more important findings of this current research is that the application of certain frequencies, or their harmonics, may play a highly significant role in the various manifestations (rate of growth, etc.) that the underlying "organism" may assume. The discovery reported here adds a new layer of complexity to the research that has been discussed on this site. The circumstances of growth are identical to that of previous work, i.e., the introduction of human oral filament samples within a red wine base; what differs is the illumination of the petri culture dishes with light of a specific frequency chosen from earlier absorption analysis. It will be noticed that a strong and sharp absorption peak at approximately 375 nanometers (nm) has been identified in the previous Carnicom report titled ' THE BIGGEST CRIME OF ALL TIME’ (dated March 1, 2011); this corresponds to the blue portion of the visible light spectrum. The phases of this explosive growth from this sample being subjected to this light frequency is imaged and presented on this page.
This work details an analysis made that indicates that one of the primary applications of the aerosol operations is likely to involve the advanced use of radar technology for military purposes. Discussion ensues of the definition of plasma, with plasma being an ionized gas consisting of ions and free electrons distributed over a region in space. The effect of aerosol operations can lead to no other logical conclusion except that the lower atmosphere itself has been altered to a plasma state. The importance of the concept of ‘plasma frequency’ is outlined in a quote from Richard Feynman: “This natural resonance of a plasma has come interesting effects. For example, if one tries to propagate a radio wave through the ionosphere, one finds that it can penetrate only if its frequency is higher than the plasma frequency. Otherwise the signal is reflected back. We must use high frequencies if we wish to communicate with a satellite in space. On the other hand, if we wish to communicate with a radio station beyond the horizon, we must use frequencies lower than the plasma frequency, so that the signal will be reflected back to earth.” A detailed discussion of the calculations of the plasma frequency for the ionosphere ensues in this work that supports the notion that a significant application of the aerosol operations may well involve the propagation of radio waves over extended distances. There are numerous military and electromagnetic propagation applications that become evident from this finding.