The fourth area of modern science we consider fundamental to understanding and applying New Energy -- also called Zero Point Energy. This is the field of Quantum Electrodynamics.
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New Energy Part 3: The Science - Quantum Electrodynamics
1. New Energy for an
Ultramodern Vietnam
Part 3: The Science
June 2014 Saigon New Energy Group
2. That is what brings us to our fourth
topic in the physics of New Energy:
It is Quantum Electrodynamics (QED)
3. According to Wikipeida,
Quantum Electrodynamics (QED) can be
described as a perturbation theory of the
electromagnetic quantum vacuum. Richard
Feynman called it "the jewel of physics" for its
extremely accurate predictions of quantities
like the anomalous magnetic moment of the
electron and the Lamb shift of the energy
levels of hydrogen.
4. It is these “perturbations” that create the
sloshing and dynamism of the Zero Point Field or
“transmuting ether” (to use LaViolette’s term)
5. And in this sense, Quantum Electrodynamics
helps us fill out our understanding of
Wheeler’s “quantum foam” concept
6. In Quantum Electrodynamics, subatomic
(“virtual”) particles are constantly flitting in and
out of physical existence, most of them existing
physically for far less than a second
Animation:
http://weelookang.blogspot.com/2010/06/
ejs-open-source-brownian-motion-gas.html
7. If you begin to think of the Zero Point Field as an
ocean that is constantly sloshing around, then
you can start to see how we might harness that
perpetual movement similar to the way in which
we harvest tidal energy
8. The Zero Point Field is normally very
chaotic; in order to extract ZPE from it,
we must first impose some order on it
9. When the Zero Point Field is nicely
ordered and patterned, we say that it
has achieved “quantum coherence”
10. Scientists used to think that achieving
quantum coherence would be impossible,
saying that it would violate the Law of Entropy
11. However, Nobel Prize winner Ilya
Prigogine has shown how quantum
coherence is in fact possible
12. Imagine, if you will, a lake.
Its water is subject to all sorts of random
forces from fish swimming about, the
occasional fisherman’s boat passing by, etc.
13. But when a whirlpool (or the opening of a
dam) comes along, now those smaller forces
are overwhelmed by a much bigger force, and
the water coheres into a specific pattern
14. In New Energy research, it’s when the Zero
Point Field becomes coherent within in a
particular space that ZPE can be extracted
15. Dirac showed that when the quantum vacuum
is caused to cohere by a strong perturbation,
new electron-positron pairs can form out of
the transmuting ether
16. This possibility of “pulling” matter and
energy out of the vacuum likely explains
part of the overunity results achieved by
many New Energy scientists
17. The interaction of charged particles
with the Zero Point Field is called
“vacuum polarization”
18. One of the most useful things we can
do with Quantum Electrodynamics is
create antigravity propulsion using
electrogravitic coupling
19. Anastasovski and Evans have shown
mathematically how electrogravitic
coupling is possible within the framwork
of Quantum Electrodynamics
Myron Evans
20. Evans found that he could apply the
equations of Mendel Sachs to mathematically
define the antigravity effect of electrogravity
Mendel Sachs spent
much of his career
trying to complete
Einstein’s unified
field theory
21. We are not claiming that these
equations are easy, but we know you
can understand them if you try!
22.
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25. Evans’ equations are important because they
show that antigravity is both possible, as well
as mathematically predictable
26. Without these equations, the antigrav
spaceships we build in the future might fly
to the wrong star system, or go up when
they should go down, or…
27. Indeed, antigravity is one of the most
exciting applications of Zero Point
Energy technology
32. In order to use Zero Point Energy in the
macroscopic world – the world of things we
can see, touch, and ride on/in –
We need to get what physicists call “work”
from quantum systems
33. And that is what Hendrik Casimir’s was
researching in the 1940s when he noticed the
weak but very real quantum-induced movement
of metal plates he called the Casimir Effect