SYSTEM AND METHOD FOR GENERATING
A RIGHT TORSION FIELD
Inventor: PAVLENKO ANATOLIY R [UA] ; PAVLENKO OLEXANDER
SYSTEM AND METHOD FOR
GENERATING A RIGHT TORSION FIELD
FIELD OF THE INVENTION
This invention relates to torsion fields, an in particular to a
device for providing protection from torsion fields for users of
BACKGROUND OF THE INVENTION
Torsion fields are generated by the classical spin, or by the
spin angular momentum density (on a macroscopic level) of any
object. The spinning of an object sets up polarization in two
spatial cones, corresponding to a left torsion field and a right
torsion field. At an atomic level, nuclear spin as well as full
atomic movements may be the source of torsion fields. This means
that all objects in nature, live or dead, generate their own
Unlike electromagnetic and gravitation fields that have central
symmetry, torsion fields have axial symmetry. Torsion fields are
also different from electromagnetic fields in that torsion
fields having an opposite spin repel each other. Torsion fields
may also propagate through physical media without interacting
with the media. Thus, torsion fields may not be shielded by most
materials. However, a propagating torsion field alters the spin
state of the media it propagates through.
Since all substances have their own stereochemistry which
determines not only the location of atoms in molecules, but also
determines their mutual spin orientation, then the superposition
of the torsion fields generated by the atomic and nuclear spins
of each molecule determines the intensity of the torsion field
in the space surrounding each molecule. The superposition of all
these torsion fields determines the intensity and spatial
configuration of the characteristic torsion field for that
substance. Thus, each physical object, whether living or
non-living, possesses its own characteristic torsion field.
Torsion fields may also be generated by other methods in
addition to the classical spin of particles. A wide spectrum of
geometric forms of substances and objects are a natural source
of torsion fields. Objects with a certain surface geometry will
simultaneously generate left and right torsion fields of a
certain configuration depending on the geometry of the object.
Examples include, pyramids, cones, tridents, cylinders, and flat
Torsion fields are also generated by electromagnetic fields.
Since charge polarization simultaneously results in a loss of
equilibrium in charge and spin, an electrostatic field is also
followed by a torsion field. Thus, sources of electromagnetic
and electrostatic fields are always sources of torsion fields.
As electromagnetic fields are accompanied by torsion fields,
most electronic devices, such as computer monitors and
televisions are sources of torsion fields. Thus, torsion fields
are generated during the operation of a monitor or television.
Once the monitor or television is turned off, disturbances
disappear and spatially split particles and antiparticles of
phytons return automatically to their stable symmetric state.
However, even after being shut off, the static torsion field
created by the luminescent screen of the television or monitor
does not disappear for some time.
The property of spin of the molecules in each object is subject
to influence by external torsion fields. Thus, the structure of
the torsion field of each physical object can be altered by the
influence of an external torsion field. The influence of an
external torsion field would result in a new configuration of
the torsion field in the object. This new torsion field would be
fixed as a metastable state and will remain intact even after
the source of the external torsion field is removed.
Published studies have shown that exposure to left torsion
fields may have a negative effect on the human body, while right
torsion fields may actually have a positive effect. The negative
effects of left torsion fields may include a decline in the
response of the immune system and a susceptibility to disease.
SUMMARY OF THE INVENTION
The present invention relates to a device for generating a right
torsion field. The device includes an outer body, a salt
solution, and a ring. The ring generates a first right torsion
field and is disposed so that a portion of the first right
torsion field propagates through the salt solution.
In one embodiment of the invention, the outer body has a first
chamber and a second chamber. The salt solution is disposed the
first chamber and the ring is in the second chamber. The first
chamber and the second chamber are then positioned so that a
portion of the right torsion field propagates through the salt
The salt solution may include a rare earth metal salt. The salt
solution may also include several different rare earth metal
salts. In one embodiment, the salt solution includes
approximately 5% Cerium, 5% Lutetium, and 5% Erbium by
The ring may also have a first end and a second end forming a
gap in the ring.
The ring may further have ball members attached to each end. The
ring and associated ball members may inherently produce a first
right torsion field an a second right torsion field. In order to
increase the strength of the torsion fields, the ring and
associated ball members may be constructed out of a metallic
In accordance with another aspect of this invention a device for
generating a right torsion field may include an outer body, a
salt solution, a first ring and a second ring. The salt
solution, first ring and second ring are disposed in the outer
body. The first and second rings are concentric and together
generate a right static torsion field. The salt solution, first
ring, and second rings are disposed such that the right torsion
field generated by the rings propagates through the salt
solution. In one embodiment, the outer body may have a first
chamber and a second chamber where then salt solution is in the
first chamber and the rings are in the second chamber.
The first ring and the second ring may also each have a gap. In
one embodiment, the gaps for each of the rings are positioned
such that the gap in the first ring is 180 degrees from the gap
in the second ring. The device may also include a third ring in
the second chamber. The third ring may also have a gap. The gap
in the third ring may be positioned 180 degrees from the gap in
the second ring.
In accordance with another aspect of this invention a method of
significantly decreasing the presence of left torsion fields
about an electronic device includes the steps of generating a
right torsion field, propagating the right torsion field through
a salt solution, and directing the right torsion field
substantially perpendicular to a left torsion field generated by
the electronic device.
BRIEF DESCRIPTION OF THE
FIG. 1 is a side
cross-section of one embodiment of the present invention;
FIG. 2 is a top view of
one embodiment of the rings located in the second chamber;
FIGS. 3a and 3b are
schematic views for comparison of the torsion fields generated by
the rings alone and the torsion fields generated by the rings in
conjunction with the salt solution in one embodiment of the
FIG. 4 is a view of the
torsion fields generated by a monitor or television; and
FIG. 5 is a view of the
effect of the present invention on the torsion fields of the
monitor or television.
FIG. 1 depicts one potential embodiment of a device for generating
a right torsion field to provide significant protection to a user
from left torsion fields, especially those generated by electronic
equipment. The device includes an outer body 10 having a first
chamber 20 and a second chamber 30. In one embodiment the outer
body 10 is in the shape of a disk and is constructed from an inert
plastic mass that does not affect the functionality of the device.
Of course the outer body may be cylindrical, rectangular, or any
other shape, and may also be constructed from any other material
that would not interfere with the generation of torsion fields by
the present invention.
The first chamber 20 includes a salt solution. The salt solution
may include water plus any element that would provide a
significant number of positive and negative ions in the solution.
For example, the salt solution may be natural sea water. The salt
solution may alternatively be comprised of water and ordinary
table salt. The water in the solution may also be substituted with
another liquid as long as the liquid is capable of inherently
generating a torsion field. The use of various elements, as well
as various combinations of elements will result in varying torsion
field strengths generated by the present device.
Along with the choice of elements, the strength of the generated
torsion field is also affected by the concentration of each
element in the solution, the hydration of each element, and the
temperature of the solution.
In one embodiment, the salt solution includes a rare earth metal
salt. The rare earth metal salt may be any element with an atomic
numbers from 58 to 71 (inclusive) on the periodic chart. By using
a salt solution including rare earth metals, the strength of the
torsion field generated by the present invention is increased in
comparison to any other type of salt solution. In one approach,
the salt solution includes three different elements.
The salt solution may be approximately 5% Cerium, 5% Lutetium, and
5% Erbium by composition. However, any other rare earth metal salt
may be used in addition to or in place of the these elements. The
concentration of the element may also be varied.
The salt solution generates left and right torsion due to the
movement of opposite ions in opposite directions. The ions are set
into motion by the magnetic fields generated by the magnetic poles
of the earth. Hydroxyl ions and hydroxonium ions that are
inherently present in the solution are set into motion as a result
of the magnetic fields. The trajectories of movement of the
hydroxyl and hydroxonium ions are cycloids.
Since water molecules have a high dipole moment, the hydroxyl and
hydroxonium ions that move from the point where they have appeared
during dimer decomposition and rotate in the same area but in
opposite directions will orient the nearest water molecules as if
stringing them on the arch of a cycloid. This results in the
unification of molecules situated on the hydroxile and hydroxone
arches into flat circular associates due to collective aquatic
links. Circular associates that appear are extremely passive
because they are unpolar, neutral and slow moving due to their
large size and weight. This makes the reconstruction of water into
regulated ice-like structures easier. The ice-like structures
generate the left and right torsion fields.
The strength of the left and right torsion fields generated by the
salt solution alone is related to the volume of solution present.
However, the volume necessary to generate a torsion field with
sufficient strength to repel a left torsion field from electronic
equipment would be too large for convenient use.
The first chamber 30 includes at least one ring. In one
embodiment, the ring may be substantially cylindrical in
cross-section. The ring may alternatively have a flat-crosssection
or any other shape. The cross-sectional diameter of the rings may
also be varied.
The rings are preferably metallic, such as zinc or copper but may
also be constructed out of any other material that inherently
produces a torsion field. The shape and material of the ring will
affect the strength of the torsion field generated by the ring.
In one embodiment shown in FIG. 2, the first chamber 30 includes
an inner ring 31, a central ring 32, and an outer ring 33. The
three rings 31,32, and 33 are positioned concentric to one another
on the horizontal plane. In one approach, each of the three rings
is discontinuous, forming gaps in each ring. Thus, the inner ring
31 has a first gap 34, the central ring 32 has a second gap 35,
and the outer ring 33 has a third gap 36. The rings may be
oriented such that the gap for each rings is positioned 180
degrees from the gap in an adjacent ring along the horizontal
plane. Thus, the first gap 34 may be positioned 180 degrees from
the second gap 35. Similarly, the second gap 35 is 180 degrees
from the third gap 36. Preferably, the size of the gap in each
ring is the same. However, the size of the gap in each ring may be
altered and each gap may be different in size from each other gap.
The number of rings in the second chamber may be varied. By
increasing the number of rings, the overall strength of the
torsion field generated by the present invention would be
increase, Conversely, reducing the amount of rings, reduces the
overall strength of the torsion field. Furthermore, the strength
of the torsion field may also be varied by changing the spacing
between the rings.
Each of the three rings may further include a ball member 37
attached to each end of the each of the three rings. Each ball
member is also preferably metallic, but may be any other material
capable of inherently generating torsion fields. The diameter of
each ball member may be varied and the diameter of each ball
member is not necessarily the same diameter as any other ball
member. The shape, size, and material of the ball members will
affect the strength of the generated torsion field.
The second chamber may further include an inert mass, preferably
plastic. In one embodiment, the inert mass fills the second
chamber, which holds the three rings in a predetermined position.
The inert mass has no significant effect on the generation of
The three rings, along with the associated ball members 37 act as
topological resonators that generate two right static torsion
fields, as shown in FIG. 3a. The right static torsion fields
appears as a result of the local properties of topology of the
three rings and the associated ball members.
The first chamber and the second chamber are positioned such that
at least one of the right torsion fields propagates through the
salt solution. Thus, the first right static field propagates
through the salt solution while the second right static torsion
field does not. As shown in FIG. 3b, the interaction between the
first right static torsion field generated by the rings and the
torsion field generated by the salt solution increases the overall
strength of the right torsion field generated by the present
invention. Furthermore, because the first right static torsion
fields is strengthened due to the interaction with the salt water,
the strength of the second right static torsion field is also
In another approach, present invention may include a third chamber
that also includes salt solution. The third chamber may be located
adjacent to the second chamber on the opposite side from the first
chamber. In this approach, both the first right torsion field 41
and the second right torsion field 41 generated by the rings would
propagate through a salt solution, further increasing the overall
torsion fields generated by the present invention.
In yet another approach, the salt solution and the ring may be
disposed in the same chamber such that this salt solution
surrounds the rings. In this approach, both the first right
torsion field 41 and the second right torsion field 41 generated
by the rings may propagate through a salt solution.
Thus, the present invention using the salt solution in conjunction
with the rings generates a first right static torsion field 42 and
a second right torsion field 43 that are stronger than the first
right static field 40 and second right static field 41 generated
by the rings alone. Each of the right torsion fields 42 and 43 is
individually significantly strong enough to repel a left torsion
field generated by most electronic equipment. Although a left
torsion field (not shown) is also generated by the salt solution,
the strength of the left torsion field is negligible as compared
to the two right torsion fields.
As shown if FIG. 4, a television or monitor 50 typically generates
a left torsion field 51 from the front of the television or
monitor or television, towards the direction of the user, and a
right torsion fields 52 towards the rear of the television or
The present invention may be placed in front of the television or
monitor, between the user and the electronic device. Preferably,
the present invention is positioned such that either face 11 or 12
of the outer body is directed substantially perpendicular to a
cathode ray tube of the monitor or television (see FIG. 5). This
ensures that the right torsion field generated by the present
invention is substantially perpendicular to the left torsion field
generated by the cathode ray tube. The present invention may be
placed on the desk or counter between the electronic device and
the user, or alternatively, it may be attached to a wall or
Since the right torsion field 40 generated by the present
invention is perpendicular to the left torsion field generated by
the monitor or television, the right torsion field 40 repels the
left torsion field 51 and deflects the left torsion field 51
generated by the monitor or television or monitor about 180
degrees. (See FIG. 5) This forces the left torsion field 51
generated by the monitor or television to overlap with the right
torsion field 52 emanating from the rear of the monitor or
television. Since the left 51 and right 52 torsion fields from the
monitor are generated by the same source, the left torsion field
and right torsion fields coincide and compensate for each other,
effectively decreasing the effects of each field. This interaction
creates a generally harmonized space surrounding the monitor such
that there is a significant decrease in the presence of any left
torsion fields in front of and behind the monitor.
It should be noted that the present invention may be used to
decrease the effects from torsion fields generated by any
electrical equipment, including phones, vehicles, stereos, etc.
For each device, the number of rings, the spacing between the
rings, and the rare earth elements used may be altered in order to
generate the appropriate right torsion field in order to repel the
left torsion field from the associated electronic equipment.
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