In this section, we treat in some detail how New Energy inventors are successfully extracting energy from the quantum vacuum, also known as Zero Point Energy. Often dismissed as impossible by mainstream scientists, we encourage you to let experiment rather than dogma guide your exploration of this fascinating field of science and technology.
9. Specific frequencies produce specific
effects
• We can see how Solfeggio frequencies affect
the formation of ice crystals
10. It’s easy to see, then, how certain
frequencies can spur the formation of
charged gas and water clusters
11. Remember that these clusters are
capable of holding much more ZPE
than random, unclustered molecules
12. To make a comparison to politics,
individuals working alone are not likely
to create political change.
13. But when they form into a cohesive
group structure, they can have
tremendous power to effect change
14. Many successful inventors have looked to
nature to find frequencies that “work”
• The frequency at which photosynthesis
occurs, the Solfeggio frequencies, Schumann
frequencies, etc. may all be useful for different
applications
15. Some tips on working with plasmas for
ZPE extraction
16. Pulsing the plasmas into the system
(just as we pulse voltage) can help
extract ZPE
• Often, it is the combination of forces that
makes a system successful
• Therefore, you might try pulsing both plasmas
and voltage simultaneously
17. Creating plasma waves can work well
• Remember that resonance is key here
• Try to make each successive wave bigger and
bigger by taking advantage of resonance
• Remember the analogy of timing your pushes
just right when you push a child on a swing to
make it swing higher and higher
19. Create plasma vortexes
• Torsion physics tells us that a toroidal
(spinning) wave is much stronger than a
standing wave
20. An example is the Beltrami vortex
• Some scientists believe the proton is a ring-
shaped vortex
21. We see ring vortices around some
galaxies
• Some of the most successful ZPE systems
imitate nature!
22. We can use plasma vortices to create
vortices of…
• Ions
• Charged Water Clusters
• Inert gas
23. There are tools like the trisops which
can help you create plasma vortices
24. One way to imitate nature would be to
vertically arrange symmetrical vortices
25.
26. Try creating vortices in liquids of
varying viscosities
• Mercury has been used in this way to create
antigravity effects
• Even cooking oil has been used successfully
28. Throughout all your system designing, keep in
mind that the torus with two vortices (at the
north and south poles) is a fundamental
energy structure in the universe
43. As well as of toroidal coils rotating in
unison
44. You may wish to fill your tori with
something
• Ions
• Plasma
• Inert gas
• Mercury (Hg)
• Water
• This is one way to play with electron spin and
mass
45. Prof. Watanabe, in particular, has studied how
toroidal confinement plasmas can rapidly
achieve quantum coherence
47. Many scientists have found that Tesla-
wound bifilar wire gives better results
in torus systems
48. Scientists in Nazi Germany found that they
could produce interesting ZPE effects by
combining magnets with rotating toruses
49. John Searl and others have found that rare
earths (like neodymium) make some of the best
magnets for New Energy applications
50. Therefore, a country would be wise
not to sell all of its rare earths to
foreign buyers
51. Many magnet motor experimenters find that the
key is to create an asymmetry in the magnetic
fields of a system so that its imbalance keeps the
system running more or less perpetually
52. Here is an example of a “piston-type”
magnet motor setup from Korea:
53.
54. Some magnet motor designers run into the
problem that there are magnetic fields where
they don’t want them
55. To overcome this problem, you can
use iron and aluminum plates to
create a magnetic shielding effect
56.
57. Tim Ventura points out that if you spin
magnets quickly enough, like poles will
stop repelling
58. One of the “tricks” to getting magnet-based
systems to work seems to be quickly
switching the attractive and repulsive forces
Possibly, an oscillating magnetic shield
could create this effect
61. We know from quantum electrodynamics
that heavy ion collisions can create
quantum coherence
62. By modulating density during plasma
creation, you can create ion acoustic waves
which raise the energy level of your system
63. Watanabe et al. have shown that ion acoustic
oscillations increase radiant energy
absorption and create runaway electrons
with anomalous heat
64. Aspden found that pulsed ion
discharges into water create huge
explosions
65. Graneau showed that electric arc
currents through salt water could
produce ion acoustic wave activity
66. This process produced vacuum
polarization of atomic nuclei and, from
this, an overunity effect
67. Puharich also found that in electrolysis of water
where the voltage is pulsed in a frequency
resonant with that of the water molecule’s
bonds, ion oscillations will develop
68. Besides ions, you can use water
cavitation to extract ZPE from the
quantum vacuum
69. In order to do this, you need to have
water with a high concentration of
Charged Water Clusters (CWCs)
http://phys.org/news/2011-06-scientists-dielectron-nano-
droplet.html
70. CWCs are clusters of water molecules
that have assumed highly energetic
geometric bonds
http://en.wikipedia.org/wiki/Water_cluster
71. The bonding together into these crystalline
forms is a result of being placed into a highly
energetic, quantum-coherent state
http://chemistry.lsu.edu/People/Faculty/Randall
%20Hall/item1084.html
72. Vortex activity in
the system can
help the formation
of CWCs
http://www.pillaroflight.net/HowItWorks.html
73.
74. Cavitation can extract ZPE by getting a
water bubble containing CWCs to
collapse against a hard surface
75. ZPE from water cavitation
• The collapsing bubble forms a re-entry jet
• The re-entry jet squeezes the water crystal,
which assumes a ring form
• The toroid form of the bubble contains
tremendous energy which is released in an
explosion similar to a miniature H-bomb
76. There are many ways to cavitate water
• Electrolysis gas through a narrow gap
• Blowing air
• Venturi vacuum
77. Many ways to cavitate water
• Mechanical vibrations
• Oscillate electrical field
– Toroidal coil
– Pulsed waveform
78. Also, you can use sonic and ultrasonic
acoustic waves to cavitate water
• Stringham used sono-cavitation to create
microscopic bubbles which would then crash
into metals and create lots of anomalous heat
79. Zero Point Cavitation Expert Mark
LeClair warns to keep a safe distance
from the cavitation-induced reactions
• There is a risk of
radiation poisoning!
• Fusion, Fission, and
transmutation can occur
in these reactions
80. The subject of water cavitation to
produce CWCs leads to the next topic,
which is plasmoids.
On this topic, I highly recommend the
books and lectures of Moray King.
81. A plasmoid is a plasma which has a
closed magnetic field structure
82. Plasmoids are often formed in ZPE
systems when a Charged Water (or
Gas) Cluster is hit by a pulse
http://xray.bmc.uu.se/hajdu/experiment/html/damage.htm
83. In many ways, plasmoids mimic the
behavior of galaxies and nebulae
84. Plasma filaments in the lab will form
“spiral galaxy” shapes even without
the action of gravity
86. When combusted, these plasmoids exhibit
unusual force, acceleration, and energy which
you can use to drive a piston or do other work
87. Plasmoid explosions can be so powerful that
transmutation of elements occurs
• This is a sign that ZPE has been at work
88. Plasmoid explosions underwater can create
a controllable ‘ball lightning’ effect
• Dr. Kiril Chukanov has claimed an overunity
effect based on ZPE using this method
93. To sum up, we’ve seen a number of
ways to extract ZPE
• Pulsed high voltage
• Vortex action
• Ions & ion acoustic waves
• Sound & Ultrasound
• Plasmas & Plasmoids
• Water cavitation
• Torroidal coils in various arrangements
• Magnets & magnetic asymmetries
• Lasers & micro-lasers
94. New Energy scientists often advise that using
these methods in combination often brings
superior results
95. They also advise that the order in which they are
applied in the system can be key
• A x B does not always equal B x A!
• For example, if you pulse voltage first and
then apply a vortex second, the result may be
different from a system that creates a vortex
action first and then pulses voltage second