Effect of Microwaves on the
Central Nervous System 1965 – German translation
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ABSTRACT
The autonomic nervous system is affected by the microwaves
of the centimeter wavelength band. These waves affect
circulation, respiration, temperature control, water
balance, albumin and sugar concentration in the cerebro-spinal
fluid, hydrogen ion concentration, EEG. GSR, sleep,
conscious awareness, etc. Depending on the applied dosage,
these waves stimulate the sympathetic or parasympathetic
system. Very small dosages produce analgesic effects;
however, very large dosages are fatal. An undamped or
modulated frequency is more effective than damped waves. The
biological effect of these waves results from the resonance
absorption in the ganglia. There are indications that only
higher harmonics, and not the fundamental frequency, produce
biological effects. The shielding of the test subject by
metal screens increases these effects; however, magnetic
fields remove them. Higher harmonics producing these
biological effects have physical properties which are
similar to those of the bio-electrical energy generated by
the human body. The mechanism of hypnosis is explained by
the transmission of this energy.
Contents
Introduction
I. Influencing the central nervous system by short waves as
well as by high-frequency currents
1. Influence on the motor and sensory nerves
2. Influence on circulation and respiration
3. Influence on the EEG
4. Influence on temperature control
5. Influence on the water balance
6. Influence on abduction phenomena
7. Influence on sleep
8. Influence on conscious awareness
9. General influence of the short electromagnetic waves on
the central nervous system
10. Chemical-physical effects of short waves
11. Interpretation of the process with different forms of
application of short waves
12. Dosage
13. Summary
II. Electrical processes in the human body and its
environment
1. Electrical phenomena in the human body as well as in its
environment as a function of the emotional state
2. Electrical phenomena in the human body and its
environment during muscular contractions
3. Amplification of electrical phenomena in the human body
and its environment by artificial means
4. Resonance phenomena in the transmission of nerve energy
in the human body and its environment
5. Physical characteristics of the energy generated by the
human body as well as by various inorganic and organic
compounds
6. Summary
III. Absorption of electromagnetic energy in ganglion cells
1. Relation of absorption to the emotional state of the
person
2. Resonance absorption
3. Relation of absorption to the frequency of the
high-frequency energy acting on the human body
4. “Filtration” of the higher harmonic of the fundamental
frequency influencing the ganglion cells
5. Summary
Bibliography
INTRODUCTION
The present study demonstrates that short electromagnetic
waves can have an extensive influence on the central nervous
system. This involves a direct influence of high-frequency
energy on the autonomic nervous system and the influence on
the somatic nervous system takes place by the control of its
readiness to function from the vegetative sphere. Such a
process otherwise takes place only under hypnosis.
The human body has been found to be the generator of a wave
energy which is propagated in the surrounding atmosphere in
the form of electromagnetic waves. In its transmission to
other persons, this energy influences the central nervous
system in a manner similar to short electromagnetic waves.
The hypothesis used for an explanation of suggestion is
based on the transmission of this wave energy. It has been
found that neither the entire electromagnetic field of a
short-wave transmitter nor the entire electrical field in
the environment of the human body can influence the central
nervous system.
Rather, the central nervous system is influenced by certain
wave components contained in the electromagnetic waves
generated by a short-wave transmitter as well as in the
electrical field surrounding the human body. Since these
Wave components of short electromagnetic waves as well as
those of the electrical field around the human body exhibit
similar physical characteristics and exert similar
influences on the central nervous system, it can be assumed
that the same energy is involved in both cases. The
possibility results to produce the energy which is effective
in hypnosis by engineering methods. In this connection, the
development of the instruments which are to produce this
energy is to be based on guidelines which differ
fundamentally from those presently utilized in the
development of transmitters for short-wave diathermy.
In short-wave diathermy as it is used today, the heat
generated in the patient is primarily utilized. The
development of short-wave transmitters consequently followed
the design of highly efficient instruments which produced a
maximum heat generation in the patient. It was found that
heat produces an effect opposite to that of the energy which
influences the central nervous system. Consequently, the
effective action of the energy influencing the central
nervous system is considerably reduced by the heat formed in
the patient. A further attenuation of the energy influencing
the central nervous system was produced by the introduction
of oscillators which generate undamped oscillations. For
undamped waves produce much less prominent reactions of the
central nervous system than damped waves or pulses. The
introduction of transmitters built on this basis for
short-wave diathermy together with the new dosage method
which I have proposed and which is based on the principle of
measuring the reaction of the autonomic nervous system to
the electromagnetic energy absorbed by the body. will
provide the practising physician with a new effective
instrument permitting the treatment of patients by direct
stimulation of the central nervous system.
Effect of Microwaves on the Central
Nervous System, German Translation, 1965.
Finland, Helsinki,
City of Gosford, Australia,
Murray Bridge, South Australia
Orange, Australia,
Chad, N'Djamena
Bangladesh, Dhaka
Comoros, Moroni
Armadale, Victoria,
Fiji, Suva
Seattle, Washington, USA
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