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In
the history of Science, developing of a new instrument has
always resulted in new understanding of Reality. Microscope,
telescope, X-rays, camera, laser, computer - without these
instruments the modern science is powerless. Recently a new
instrument came to being - a solid state computerised Gas
Discharge Visualisation (GDV) camera for bio-electrography.
The GDV technique is based on so-called Kirlian
effect, named after Semion Kirlian and his wife, who first
recorded and studied stimulated electro-photonic images around
various objects.
Internationally distinguished physicist, Prof Konstantin Korotkov
from St. Petersburg Tech University in Russia studied the
information aspect of stimulated electro-photonic emissions
around the human body and other objects for several decades,
following his personal contacts with Semion Kirlian.
He found, that in order to be able to extract reliable and
repeatable information from the recorded electro-photonic
glow it was necessary to optimise the apparatus. In particular
it was necessary to minimise the influence of the ambient
temperature and humidity, use a semiconductor camera rather
than a photographic process for recording images and optimise
parameters of the process of stimulation of electro-photonic
emissions.
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In 1996 Prof Korotkov
developed a range of instruments for stimulation, recording
and processing of electro-photonic images and called his technique
Gas Discharge Visualisation (GDV).
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Professional model of the GDV instrument
(2008) |
Gas Discharge Visualisation technique,
as any other perturbation
method used in science, has tremendous potential for extracting
information about objects being studied.
One of the most significant applications of the GDV technique
today is assisting health professionals in quick
and accurate assessment of human state and in comparing
effectiveness of various therapies. |
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