THE TELEPORTER
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A teleporter is a device which can transfer a solid object from position A
to B wirelessly at the speed of light or faster. Three different principles
(methods) can be used to create such a device.
Using the first method, all the object's atoms are scanned by 2 energyplane 2
(EP2) rays which cross each other at the scanning point. The atoms which
are present at the scanning point modulate the sum and difference of the
frequencies in the 2 crossing beams. The beams consist of a type of EP2
energy that can penetrate all energyplane 1 matter. The modulated swingproduct
is digitalized and scanned by a photon computer. This computer calculates the
numbers of protons, neutrons and electrons in the matter scanned. The computer
generates a binary code containing this information. This code is sent to the
receiving destination. At the receiving destination the physical object is
rebouilt of plasma using the binary code as it's reference. This method means
that a solid object is copied exactly at the destination. This method needs a
lot of frequency spectrum and it requires a lot of time to send even a small
physical object if the spectrum used is limited to the electromagnetic
spectrum. One must have access to waves on energyplane 3 to make this method
useful. We therefore do not use this method.
Method 2 is more useful. It uses a totally different principle. Here the
entire object is transformed and transferred to energyplane 2 in one quick
operation. In this state without graviton binding the object is transmittable
as a whole. The object disappears from the transmitting site, so this method
does not employ copying. The object is moved along the energy
dimension by an oscillating magnetic field which influence the quarks in such a
way that the object lose it's graviton binding. The object is therefore moved
to energyplane 2. It is now possible to transmit the object through space by an
electromagnetic pulse. You can send the object to another nature plane or you
can move it to another geographical coordinate in our natureplane.
Method 3 is as follows: you create a 4-dimensional channel trough space and
send the object along this channel. (A wormhole in space itself). Using this
method you don't need to do anything with the object. To use this method you
need an unatomic force field. Orgon can perhaps can be used to create the
wormhole. With this method is it possible to send object to other times as
well as other positions in space.
Method 1 requires a receiving device. Method 2 doesn't require a receiving
device because the object automatically rematerializes at a certain distance
from the antenna, depending on the strength of the transmission impulse. This
method does however need precise pointing accuracy in the transmitting antenna
so that the object will rematerialize at the chosen receiving spot, for
example with 3mm positional accuracy. It is possible to build a receiving
device using method 2 that works in phase lock with the transmitter by leading
the object along a wave travelling between the transmitter and receiver. The
object dematerializes in a chamber at the receiving spot. With method 3 it's
possible to see the receiving location through the channel before the object
is sent. One can therefore search for the best receiving location by looking
and using the controls at the same time. When the best spot is found the
object is sent trough the hyperspace channel.
Method 2
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In the drawing you can see a block diagram of a teleporter based on method 2.
The transmitting chamber is shown. Over and under this chamber the main
magnets are located. These magnets consist of a material that makes them
very fast. The magnets are formed as discs around the bottom and top section
of the chamber, which is cylindrically shaped. In a ring around the middle
section of the chamber are located various control and modulating magnets.
The waveguide from the chamber to the antenna is made of insulating material
with metallic discs inside. These discs are connected to a box. This box
generates a high-voltage force field between each disc in the cable. The
highest positive potential is nearest to the antenna. In the antenna there
are a circle of radials. Each of these radials can be shalted in by a special
selection system which allow transmitting the object in the right direction.
When the object is sent, a capacitor discharges between the center radial and
the chosen radial. This occurs when the object is located in the center of
the antenna waiting to be sent. The distance the object is sent depends on
the amount of energy in the capacitor before discharge. This discharge sets
the distance between the antenna and the rematerialization point.
Under the bottom of the transmission chamber is a parabolic antenna. This
antenna is used for NMR scanning of the object. A computer uses the NMR scan
to calculate the correct transformation field for the object. When the
coordinates for the dematrialization spot are given to the transmission
computer, the object is transformed. A weak laser beam emitted from the top
of the chamber will go through the object and strike a photocell at the
chamber's bottom, once the object is transformed. When this occurs the
transmission computer is activated. The object is held inside the chamber
by a magnetic field generated around the chamber. Then the main magnets
attract the object to the waveguide. The object enters the waveguide and
is sent to the antenna. The object is then emitted from the antenna. The
object's movement stops immediately when its subatoms begin to attract
gravitons. This stopping has no effect on the object because mechanical
natural laws only are valid on energyplane 1. This means that the object
must have rematerialized before these laws can take effect.
