Volume 7 No 4 (2009)
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Holographic Principle and Quantum Physics
Zoltan Batiz, Bhag C. Chauhan
Abstract
The concept of holography has lured philosophers of science for decades, and is
becoming more and more popular in several front areas of science, e.g. in the
physics of black holes. In this paper we try to understand things as if the visible
universe were a reading of a lower dimensional hologram generated in
hyperspace. We performed the whole process of creating and reading holograms
of a point particle in a virtual space by using computer simulations. We claim that
the fuzziness in quantum mechanics, in statistical physics and thermodynamics is
due to the fact that we do not see the real image of the object, but a holographic
projection of it. We found that the projection of a point particle is a de Broglietype wave. This indicates that holography could be the origin of the wave nature
of a particle. We have also noted that one cannot stabilize the noise (or fuzziness)
in terms of the integration grid-points of the hologram, it means that one needs
to give the grid-points a physical significance. So we futher claim that the space is
quantized, which supports the basic assumption of quantum gravity. Our study in
the paper, although is more qualitative, yet gives a smoking gun hint of a
holographic basis of the physical reality
Keywords
holography, holographic principle, quantum mechanic
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