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           formation was deep. That is to say, the well pump was about 850 feet deep so we
           moved the receiver about 900 feet away from the broadcasting unit. The receiving
           antenna was a quarter wave four-element square wave that was mounted on a transit
           stand with a precision inclinometer.
                  Both units were mobile. The broadcasting unit was mounted on a Yamaha
           250cc four wheel all terrain vehicle equipped with a two-way radio as well. The
           receiving unit  was inside a  modified four-wheel drive Chevy van and tied to a
           spectrographic analyzer that could read out in third octaves. The signal strength was
           monitored on a multi range analog dB meter. The phenomenon was verified when the
           mobile broadcasting unit passed over the fissure. The signal dropped over 60 dB to
           almost absolute silence. I say almost, because there was still something clearly
           indicated on the spectrograph.

                  When the transmitting unit was held stationary pointing directly to the
           center of the earth, right over the petroliferous fissure, the receiving unit could scan
           from parallel with the ground to about 50 degrees below parallel in line with the
           broadcasting unit. The spectrum would change as the receiving antenna was scanned
           through the layers of rock, shale, water, gas, oil, or open caves that were beneath the
           surface This was remarkable enough to record. What was discovered over the next
           three years would confirm the above mentioned theory beyond any reasonable doubt.
           The  actual  depth  of  the  various  formations  was  determined  through  simple
           triangulation. Multiplying the tangent of the receiving angle by the distance away
           from the transmitting unit provided the depth of the formation being scanned. A laser
           distance meter and an oversized inclinometer proved to be very precise.

                  Each day our crew would travel to oil fields in the Western Kentucky area.
           The transmitting and receiving stations were set up in alternating radii around a
           particular well site. The spectrographic information was compared to actual drill
           cutting samples obtained each five feet when the hole was originally drilled. After six
           months  on  these  sites,  we  were  able  to  positively  identify  rock  formations  by
           interpreting  the  spectra.  The  variables  of  reported  sun  spots,  electromagnetic
           radiation from high power transmission lines, and all types weather were considered
           carefully. The reliability and repeatability of the technique were astonishingly high.

                  The following year I took the equipment and technology into the field as an
           exploration unit for hire. I was convinced the technology was quite robust after the
           fifth  wildcat  well  was  discovered.  There  was  one  instance  around  Burkesville,
           Kentucky that really turned some heads in the local oil and gas industry. My crew was
           asked to "survey" a lease that was claimed to have already six operating wells. Upon
           arrival at 7:30  AM  we observed six  well-maintained pumps that  were spaced the
           mandatory 400 feet across a well-manicured farm field. After walking the area we
           decided to scan the very center of the field so the receiving unit was set up about a
           thousand feet off the property.

                  The days are rather long, hot, and humid in Kentucky in the summer. By
           8:00 PM on the second day 1 had asked the mobile transmitter to drive a total of about
           60 miles around and around this field 1 made about 100 prints of the spectra. There was