The Quantum Biological Antenna System of the Body
With the advent of powerful computers, researchers are finally able to mathematically demonstrate how the body’s individual
systems work together to support the whole.
Quantum theories have been applied to every discipline of the physical sciences because they take into consideration one very
important aspect of a system, and that is group cooperation. This is especially important to biology because cells and molecules are not isolated
from one another in the body. They act and react together in a way that supports the entire system.
A radical example of group cooperation can be found in what’s known as a Bose-Einstein condensate, or BEC. At extremely cold
temperatures, gases and liquids act as a unified whole and change properties to become superconductors, meaning that they no longer offer any
resistance to the flow of electricity, or superfluids where they loose all viscosity. The BEC is recognized as an ultimate state of coherence.
In a series of papers from 1960-1980, physicist Herbert Frohlich proposed that cell membranes act similar to a BEC under certain
conditions. He suggested that biological systems are far from equilibrium, meaning that they are in an active state and not balanced and inert. With
the vast amounts of energy they have available, biological systems can exhibit non-linear behavior. With enough energy and focus, the entire system
can jump to a state of coherence which then itself becomes a self-organized, ordered structure. Frohlich models used special molecules in the cell
walls of living tissue called dipoles. He constantly supplied them with metabolic energy causing them to vibrate and found that these electric
vibrations (from the dipoles) would couple to the acoustic vibrations that were inherent in the structure (sounds in the body like heartbeat and
breath). The resulting entrainment process could be studied by using the mathematics of non-linear dynamics.
This discovery could have only been conceived during the age of computers. Without them, the equations of non-linear dynamics
were mostly unsolvable due to their extreme complexity. A sheet blowing in the wind is an example of a simple non-linear dynamic system. Its motion
is varied, but it does have a finite range. Writing a mathematical equation that accurately demonstrates this motion is a formidable task. So
ungainly are these equations that only in rare cases can they be solved for real numeric values. For this reason, most physicists, including early
quantum physicists, chose to document their research in linear equations simply because they could be solved. With the advent of powerful computers,
non-linear dynamics equations could finally be tackled. This development opened an entirely new window through which physicists could view the motion
and workings of whole systems and what they saw stunned them. Instead of quantitative solutions, scientist now had qualitative solutions that more
accurately described the system. They found a way to describe the erratic behavior that a system sometimes exhibits and defined it as “deterministic
chaos.” This gave them tremendous insight into the workings of a living entity, which is an example of an infinitely complex non-linear dynamic system.
It’s interesting to note that the ability to solve non-linear dynamic equations greatly benefited three-dimensional computer modeling systems.
This is one of the reasons that animation graphics look so wonderfully rich and realistic now.
Frohlich proposed that the frequency of this coupled configuration between electrical vibration and acoustical vibration happened in the microwave
range, but as yet, this theory is unproven although experiments on it continue to be researched to this day.
Other factors in his theory have prompted much investigation from scientists all over the world. In the late 1960s, Frohlich predicted that
the body’s living matrix would produce coherent or laser-like oscillations. When he energized the dipoles they began to emit EM radiation, or light in the form
of virtual photons. He increased the energy and found that the molecules began to vibrate in unison until they jumped to a coherent state. In other words, they
became so coherent that they transmitted light as one unified antenna. Additional energy did not affect the system.
The word LASER is an acronym for Light Amplification by Stimulated Emission of Radiation. Lasers amplify light by recycling some of the
coherent or highly-organized energy they produce back into the system which then stimulates even more coherent emissions. In laser terminology, coherence is
defined as light that is of the same frequency and phase. It is a unified whole. Coherence in living systems means that the individual elements retain their
independence but are compelled to function together or cooperate with one another as a whole. Frohlich stated that a living coherent system is one in which
“a global order prevails and acts back to condition the individual elements of the system and coordinate their behavior.” In other words, like a laser,
biological systems have a feedback loop. As the system begins to become coherent, some of that energy is fed back into the system, establishing a “global order.”
This compels the individual elements of the body to cooperate with one another which boosts the entire system’s ability to become even more coherent.
Because the electric vibrations form the dipoles are entrained to the sonic vibrations in the body, such as the heartbeat and breathing,
practices such as meditation help the body to become more coherent. This helps all of the body’s individual systems support the whole and maintain health.
Some content excerpted from The Sage Age – Blending Science with Intuitive Wisdom
© 2008 MaAnna Stephenson
Content may be used freely with proper credit and a link to