Hole physics, teleportation and levitation,
N3, 2007
Unification of Hole teleportation and Quantum
teleportation
Constantin Leshan
(below is short description of paper
Unification of Hole teleportation and Quantum teleportation
(in Russian)) Paper is under translation.
Let's
examine the problem of teleportation of macroscopic bodies within the framework
of quantum mechanics. There are following problems which prevent teleportation of
ordinary macroscopic objects:
1. First
problem is vanishingly small de Broglie wavelength of macroscopic body, that is
the main obstacle for entanglement and teleportation due to we cannot use classical
methods of entanglement for macroscopic bodies. Thus, for teleportation of
large objects, quantum mechanics recommends increasing the wavelength of bodies.
We must find methods to increase the wavelength of large objects, it is a
single solution for teleportation of macroscopic bodies within the framework of
quantum mechanics.
2. Another
problem is isolation of objects. Decoherence is one of the crucial reasons why
macroscopic objects in our daily lives never show quantum phenomena, such as
interference. The absence of quantum behavior in the macroworld arises
naturally because it becomes increasingly difficult to isolate objects of
increasing size and complexity. Thus quantum mechanics requires absolute
isolation.
3. Another
problem is that macroscopic bodies are not identical, it is impossible to find
two identical macroscopic bodies. Besides macroscopic bodies have complicate
internal structure which prevent entanglement. Thus quantum mechanics requires hiding
the internal structure of bodies in order that all bodies must be like
elementary particles, identical and without any internal structure.
In other
words, quantum mechanics operates with quantum objects, therefore for
teleportation of ordinary objects, quantum mechanics requires quantum behavior
of large macroscopic bodies. Thus for teleportation we must transform
macroscopic bodies in quantum objects.
Pay
attention that all listed requirements of quantum mechanics are carried out
simultaneously at creation of closed hole surface.
The hole surface is an absolute isolator because
vacuum holes are impenetrable for fundamental fields. Thus a closed hole
surface hide all parameters of body – the number and position of atoms, internal
processes, mass and charges. Thus all hole
spheres containing bodies inside looks as identical and unstructured objects
like elementary particles.
Also paper
show that at teleportation the object’s de Broglie wavelength tends to
infinity. Thus at hole teleportation ordinary objects are transformed in
quantum objects.
To increase the wavelength of large body, we must perform the delocalization
procedure, when the object is smeared out over a large region of space. Then
follow a localization of body at random, and it is teleportation. In short,
teleportation is procedure of delocalization and localization of body.
Since all Hole Teleportation represents a process of realization of quantum
mechanical requirements, therefore Hole Teleportation is a part of quantum
mechanics . Especially, Hole teleportation perform all operations with quantum
objects – identical, unstructured hole spheres with long wavelength, which
are smeared out over a large region of space. Moreover the most importatant
notions of quantum mechanics have a single physical explanation in hole theory
only, for example de Broglie wavelength, uncertainty principle, non-locality
ets.
Delocalization of particles by vacuum holes as de Broglie wavelength. At
appearance of vacuum holes near or in the place occupied by particle in space,
the particle is thrown out in other place. Since in second place also can
be a hole, particle in such case exist in two places simultaneously, as a
virtual cloud. In paper Hole interpretation of quantum mechanics was
shown that such virtual cloud has wave properties.
The same nature of Quantum and Hole teleportation can be proven by following:
– Both methods need identical conditions for teleportation (best isolation,
long wavelength, all objects must be identical and unstructured, as quantum
particles.) In other ords, both methods requires quantum behaviour of objects;;
– Both methods use uncertainty principle for teleportation. Hole teleportation
use the uncertainty principle, that it is impossible to delete simultaneously
information about object's position and momentum. Since position is deleted
completelly, but not impulse, body "forgets" position and is smeared out over
large region of space. Since object remember impulse, therefore it reappears
on rajectory of uniform rectilinear motion, with the same speed and direction
of movement;
– Both methods operates with quantum objects;
– Quantum teleportation can be explained in the same way as Hole teleportation
(by vacuum holes) and vice versa, Hole teleportation can be explained by entanglement
and laws of quantum mechanics;
– Both Quantum and Hole teleportation use the same processes of entanglement,
quantum superposition and wavefunction collapse;
– Quantum teleportation and quantum mechanics has the hole vacuum
nature. The main laws of quantum mechanics as wave-particle duality, uncertainty
principle
is explained by help of vacuum holes.(Paper is in Russian).
– Both Quantum and Hole teleportation has the wave nature.
– Hole teleportation is a sole and fundamental solution that allow
to use the laws of quantum mechanics for macroscopic bodies;
– The main difference between hole and quantum teleportation is that
first method delete completely the trace, and second don't delete one / or
partially delete. Therefore first method able to teleport the original body
and second teleport its quantum state only;
– There is deep symmetry between properties of Hole and Quantum teleportation
which proves their unity.
Full version of paper
Unification of Hole teleportation
and Quantum teleportation
(in Russian).
There are all papers about hole
theory in a single file pdf (in Russian)