THE ELECTROMAGNETIC COMPANION WAVE:
A NEW MODE OF TELECOMMUNICATION
THE ELECTROMAGNETIC COMPANION WAVE:
A NEW MODE OF TELECOMMUNICATION
The following two papers propose a new class of electromagnetic phenomena that is beyond the scope of Maxwell's Equations. The companion wave is a mode of free space communication where the electric and the magnetic fields of the wave do not bear the same relationship among themselves as in an electromagnetic wave. The basic physics behind companion wave was originally theorized on the strength of a thought experiment, but has since been experimentally verified independently, by engineers unaware of my theory. The next step, to actually create and observe the companion wave, still remains to be taken. I believe it is only a matter of time.
Increasingly today, a number of abnormal electromagnetic wave phenomena are being observed, and rationalized in one way or another (see, for example this paper and references therein.) It may be that if one gave up the framework of EM wave as the only premise within which to discuss all such observations, some new light would be shed on the subject.
For a general discussion of the companion wave concept (placed in the familiar context of radioastronomy), please click here.
Vacuum electromagnetic interaction.
Abstract: The concept of a magnetic ‘companion wave’ arising when an electromagnetic wave is superimposed on a static magnetic field in vacuum is discussed. A conceptual device for observing vacuum electromagnetic momentum is proposed. The companion wave is then shown to be as real and observable as the electromagnetic wave, and also to have the possibility of carrying information.
Full text at Journal of Physics A: Mathematical and General 26 pp. 7583-7588, 1993.
A new mode of radio communication
Abstract: Aspects of electromagnetic theory proposed recently point to a possible new mode of radio communication. Such communication would occur via a ‘companion wave’, a heretofore unknown wave behaviour associated with a radio wave propagating in a superimposed magnetic field. A method of realizing this mode of communication within conventional radio science is outlined.
Full text at Journal of Physics D: Applied Physics27 pp. 2448-2450, 1994.
These ideas may already have been partially consummated:
CONSIDERATIONS INVOLVED IN EXPERIMENTAL VERIFICATION
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