|ISBN: 3110114526 ISBN: 3110114526 ISBN: 3110114526 ISBN: 3110114526|
Evidence for the Existence of 5 Real Spatial Dimensions in Quantum Vacuum
- Scale of Quantum Temperatures Below Zero Kelvin -
Conventional forces like gravitation and electromagnetism vary with the square of the distance. This is because the corresponding force is scattered into 3 dimensions due to the distribution of virtual gravitons or photons of the corresponding field in a 3D-space.
In an analogous way, the Casimir force, that varies with the 4th power of the distance, ought to arise from bosons distributed in a hyperspace with 5 real physical dimensions.
This leads to the prediction of a whole new world of quantum temperatures below zero Kelvin, and to a model that surprisingly agrees with cosmology and recent findings of the zero-point-field (ZPF). Virtual field particles (e.g. bosons of the ZPF) are probably nothing else than hyperspace particles that cross our 3-D universe from time to time, thus seeming virtual to us.
Hyperspace is an absolutely real resort. It could be used i.e. for interstellar navigation and be accessed through natural or artificial Black Holes (BH) or other kind of hyperdense matter produced by hydrogen bomb compression of matter cooled near 0ºK. The more matter we compress, the more the resulting BH will descend down to a world with no photons, no quantum waves and no energy of any kind. The last stage is a completely flat universe where all particles have mysteriously disappeared in agreement with their most likely wavy nature.
Due to quantum spin energy, any fermion is a small window to hyperspace. In addition, gravitation and EM can be easily explained as a self sustained suction force originated in hyperspace that attracts or repels matter of our 3-D universe through the mentioned windows. In summary, our universe can be considered as a 3-D space floating on an immense 5-D space - the hyperspace - in analogy to a sheet of ice floating in a deep sea.
Key words: Hyperspace, Dimensions, Black Hole, Quantum Waves, ZPR/ZPE
The possibility of lack of air was neglected until Otto von Guericke demonstrated 1650 the power of vacuum, using two large hemispheres that even 8 horses could not detach from each other. 1660, Robert Boyle predicted that sound will not travel in a vacuum, although 1798, Humphry Davy observed that heat is transmitted through it. 1934, Paul Dirac described the polarization of vacuum and cofounded QED, making 1950 the 1st suggestion of string theory.
In addition, sixty years ago, the pioneers of quantum theory (Wyle, Schroedinger, Clifford, and Einstein) believed that particles had a wavy structure, instead of being point particles. Quantum waves, as suggested by Cramer (1986), are real and not merely a probability distribution, thus supporting the original concept of Clifford (1956) that all matter is simply "undulations in the fabric of space".
Wheeler and Feynman (1945) first predicted that the electron was made of spherical inward and outward electromagnetic waves. Using a quantum wave (QW) equation and spherical quantum waves, Wolff (1995) found and described a wave that successfully predicted the properties of matter. There is great evidence that matter is the result of spherical quantum waves that exist even at 0ºK. This model lead as early as 1922 to the prediction of the positron (Anderson), since it predicted a particle with a spin opposite to that of the electron. The positron was discovered by Anderson in 1931, making the theory of QW absolutely plausible.
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