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The Journal of Interdimensional Travel
Vol. 1
Theories of Space, Quantum Physics, and
Interdimensional Travel
copyright Mike
Miller and Paul Kirsch 1999
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SECTION 6: THIS WAY TO THE STARS
[PK] - Paul Kirsch
[MM] - Mike Miller
[PK]: I was wondering if you would create an overview for non-technically inclined people to explain
how a quantum tunneling spaceship would work.
[MM]: The principle of tunneling has been proven with experiments over the last 2 years to be able to
be done over any distance in exactly the same amount of time. This is known as the
“Planckian interval of time” which is 30-to-40
powers of 10 less than one second. It
So, in other words, we could move negative
turns it out that the rate of tunneling is independent
one foot or one billion light years of distance.
in exactly the same amount of time.
And the tunneling phenomenon in
general has to do with particles
going from one place to another,
even though they’re trapped in a
region where they don’t have
enough energy to go from one
place to another.
So in other words, we could move one foot or
one billion light years in exactly the same amount
of time. The tunneling phenomenon in general has
to do with particles going from one place to
another. even though they’re trapped in a region
where they don’t have enough energy to go from
one place to another.
A real common example of this is ordinary
radioactive decay. Let’s just take the decay of an
alpha particle which is the ejection of a Helium nucleus. Now when a radioactive atom decays, it emits
an alpha particle. Well, that alpha particle only has 30 percent of the energy needed to escape the strong
nuclear forces that are binding it into the nucleus of the atom that it’s trying to escape from.
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It's kind of like a guy on a bicycle who’s trying to go over a really large hill but doesn’t have enough
energy to go over it. And he somehow finds a tunnel that he didn’t notice before. He can actually go
this tunnel instead of going up the
… in other words, the alpha particle through
mountain and down the other side. Well,
vanishes and then reappears outside the tunneling is sort of like this. It’s a
atom without going through the mysterious phenomenon where an object
actually go from one place to another
intervening space and without requiring can
even though it doesn’t have the energy to
any time to do so. Any time an electron in do so. This is how radioactive decay
an atom goes from a lower to a higher happens. In other words, the alpha particle
and then reappears outside the
energy state or from a higher energy state vanishes
atom without going through the
to a lower energy state, it doesn’t intervening space and without requiring
physically move from one energy band to any time to do so.
another. It vanishes and then reappears
in the other energy band -- without
moving through the intervening distance-through this tunneling phenomenon.
Any time an electron in an atom goes
from a lower to a higher energy state or
from a higher energy state to a lower
energy state it doesn’t physically move
from one energy band to another. It
vanishes and then reappears in the other energy band -- without moving through the intervening distance
e-- through this tunneling phenomenon. It’s almost a magical effect. But it's been observed for many,
many, years now and there’s lots of different examples of tunneling.
We have super-conducting quantum interference devices known as “SCQUIDs” which are certain
types of detectors that are used in different instruments. We have a tunneling type of transistor that uses
a Josephson junction, which is basically a barrier that prevents electrons from traveling through it. Yet
the electrons can go from one side of this insulator to the other side of the insulator -- even though it’s
impossible for an ordinary electron to do it -- by taking advantage of this mysterious quantum property
known as "tunneling". It's as simple as this, because an electron can be a wave as well as a particle. A
particle can just sit in one place. It doesn’t have to move. But a wave by its very nature must move. It
always must move.
We can say that in a given
amount of time, there is an everincreasing probability that the
wave function of the electron is
going to be in a location different
from the location that it is in now.
It is these wave-like properties
and particle-like properties being
interchangeable that is important.
What the electron does when it
tunnels is merely going back into
the Schröedinger field.
This
consists of probability matter and
energy fluctuations. It then re-appears on the other side of the barrier because the probability function
says that after a given amount of time it has to be somewhere else. So it appears on the other side of the
barrier. But the tunneling time is incredibly small. And it doesn’t matter whether the barrier is 1/8 th
inch or 10,000 miles thick. It tunnels through in exactly the same amount of time. It’s fascinating!
It is these wave-like properties and particle-like
properties being interchangeable that is
important. What the electron does when it
tunnels is it merely goes back into the
Schröedinger field. This consists of probability
matter and energy fluctuations. It then reappears on the other side of the barrier because
the probability function says that after a given
amount of time it has to be somewhere else…
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Nobody really, really understands exactly why this is. Just like nobody really understands why light
doesn’t travel 10 miles-an-hour faster than it does.
There a lot of things in physics that nobody really understands. We just kind of work with these
principles and see if we can make sense out of them by deriving experiments. And then developing
these experiments into automobiles or transistor radios.
I mean that tunneling goes on in transistors all the time in electronic equipment used all over the
World. It’s a very, very common phenomenon. And yet it’s very little understood by the general public
because it is so mysterious in nature.
[PK]: So you would create a ship with a skin around it that mimics an electron?
Well, we’ve set up a system with our ship
which is projecting a field like this which
creates this oscillation going back-and-forth
like a laser beam, which aligns all these
different particles and things together so it
acts like one "Big particle". Now on the
surface of our ship, we know that if we have
electrons at a certain distance one from
another, then their energy fields will begin to
overlap in such a way that they appear to be
one giant electron.
[MM]: Well, it basically mimics a
giant electron. It’s sort of like … In
a device called a “laser beam”, you
have a situation where all of the
photons of light are the same
frequency.
And they’re being
bounced back-and-forth between 2
mirrors. So they all line up and act as
a single giant photon or what we call
a "unitary" or "unified wave
function". Well, we’ve set up a
system with our ship which is
projecting a field like this which
creates this oscillation going backand-forth like a laser beam, which
aligns all these different particles and things together so it acts like one "Big particle". Now on the
surface of our ship we know that if we have electrons at a certain distance one from another, then their
energy fields will begin to overlap in such a way that they appear to be one giant electron.
This can also be done with photons. They’ve invented what’s known as a "surface emitting laser"
where they have like multiple layer semi-conductor chips that are etched down until you have these
towers that are spaced a few
It just happens to turn out that when we use microns apart that are emitting
Well, these photons are
Niobium (which is a superconductor) with the photons.
so close to one another that their
temperatures of outer space on our hull … It wave functions interfere with
turns out if you put electrons on Niobium … one another and they act as one
wave. This is stuff that’s
well, the electrons line up in this triangular giant
been in Scientific American
array where they’re all at a certain distance, one magazine with nice illustrations
from another. That distance just amazingly that show just exactly how
quantum superposition happens.
enough happens to be the precise distance where
their fields overlap and the object acts as a
single giant electron if -- and only if -- the shape
of the object represents the actual physical shape
of a relativistic electron.
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But it only happens if the
photons -- or in our case, the
electrons -- are in the right
position. If they are too close
together or too far apart, it will
not happen. They have to be at a very discrete position.
It just happens to turn out that when we use Niobium (which is a superconductor) with the
temperatures of outer space on our hull … It turns out if you put electrons on Niobium … Well, the
electrons line up in this triangular array where they’re all at a certain distance one from another. That
distance just amazingly enough happens to be the precise distance where their fields overlap and the
object acts as a single "giant electron" if -- and only if -- the shape of the object represents the actual
physical shape of a relativistic electron. By "relativistic electron", I mean an electron that’s traveling at
very close to the speed-of-light will have a certain shape. So if we want to behave or look like a single
giant electron, we better have the right shape or it won’t work. That’s why we’ve patented hull shapes
and cigar shapes and disk-like shapes because these effects only work because they are geometrydependent.
Furthermore, the curvature of our hull relates to how electricity and magnetism are connected nonlocally to the 6 tensor field that was basically elucidated, discovered, and experimentally verified by
Aronov and Boehm. This is where you can separate electric and magnetic objects many, many, many
feet. And if you change the electric part, the magnetic part will change even though they’re not
connected. And so forth and so on.
There’s a whole range of similar experiments which show this non-local connectivity. You can take
a photon of Blue light and run it through a crystal which splits it up into 2 photons of Red light. Bounce
one of these photons of Red light a hundred feet away with mirrors (because it's laser-like) to one side of
the laboratory and the other Red photon 100feet away to the other side of the laboratory. So now we
have these 2 photons that are 200 feet apart. Now if you use a magnetic field on one of these photons to
shift the electric field vector E just a little bit, well instantaneously the electric field vector of the "down
converted" twin photon 100 feet away on the other side of the laboratory changes at exactly the same
time. Not a millionth of a second later because the signal has to propagate at light speed. It changes at
the same instant as you change the electric field vector on the other photon. This is what’s known as the
signal-photon down conversion experiment. [StealthSkater note: … or what Einstein called "spooky
action at a distance" because it evaded his speed-of-light barrier]
Physicists say it doesn’t matter if these photons are 10 feet apart or 10 billion light-years apart.
When you change the electrical field vector of one, the other one will change to match it exactly. If you
move it 10 degrees, the other photon will move its field vector 10 degrees. So you have this
"communication" going on between photons even though they are separated by a very large distance.
And this communication is instantaneous. It's billions of times faster than the speed-of-light.
So in other words, there’s this type of quantum connectivity involved here which has been
experimentally verified thousands of times in different laboratories. And we’re trying to use this effect
not only as a means of communicating, but also as a means of traveling from space-to-space if we can
somehow measure the photons coming from a distant star and work with changing the photons we’re
projecting to look like a down converted twin of the photons. [StealthSkater note: the physicist father
of famed missing person Philip Taylor Kramer also expressed this in his own "unified field
equation" => doc pdf URL ]
[PK]: So you take a distant photon and make yours match that?
[MM]: Yes. We can measure photons from a distant star. And we believe that we can produce a
complementary photon that looks and behaves as if it were a twin to this other photon in the
proximity of the star that we’re trying to travel towards.
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[PK]: So that’s the root of it. That’s cool! That’s how you tunnel!
[MM]: Yeah, especially if our ship "appears" to be an electron. Well, we know a photon is made out of
an electron and an anti-electron.
When it's dissociated into an electron-positron So we can commute the electron
of our ship as being the
pair, we merely substitute our ship for the part
electron part of one of these
electron with the dissociation of the photon distant photons from another
before it reforms into another photon. We do star. When it's dissociated into
electron-positron pair, we
this in between the cycles of on-and-off creation an
merely substitute our ship for the
and annihilation operators. This all comes from electron with the dissociation of
or is based on the work of Einstein and many of the photon before it reforms into
photon. We do this in
the geniuses.
We’re just standing on the another
between the cycles of on-and-off
shoulders of giants and carrying the technology creation and annihilation
one step further. It's all based on really sound operators. This all comes from
or is based on the work of
physics…
Einstein and many of the
geniuses. We’re just standing on the shoulders of giants and carrying the technology one step further.
It's all based on really sound physics and incredible experiments.
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