2021
DOI: 10.4236/jmp.2021.1211094
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Elementary Particles Result from Space-Time Quantization

Abstract: We justify and extend the standard model of elementary particle physics by generalizing the theory of relativity and quantum mechanics. The usual assumption that space and time are continuous implies, indeed, that it should be possible to measure arbitrarily small intervals of space and time, but we ignore if that is true or not. It is thus more realistic to consider an extremely small "quantum of length" of yet unknown value a. It is only required to be a universal constant for all inertial frames, like c and… Show more

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Cited by 5 publications
(3 citation statements)
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“…The reason remained hidden in the conceptual framework of relativistic quantum mechanics. However, STQ accounts for new degrees of freedom [54], since any (arbitrarily chosen) space-time axis in any (arbitrarily chosen) inertial reference frame allows for two imbricated lattices. They explain the existence of the mysterious quantum numbers and their properties.…”
Section: Discussionmentioning
confidence: 99%
“…The reason remained hidden in the conceptual framework of relativistic quantum mechanics. However, STQ accounts for new degrees of freedom [54], since any (arbitrarily chosen) space-time axis in any (arbitrarily chosen) inertial reference frame allows for two imbricated lattices. They explain the existence of the mysterious quantum numbers and their properties.…”
Section: Discussionmentioning
confidence: 99%
“…Identical quanta produce flat uniform spacetime while shifting the location of one quantum causes the spaceline to curve (Figure 7(b) and Figure 7(c)). Let's note that the notion of "quantum" here is not directly related to Quantum Mechanics and Quantum Gravity [18] [19] [34]- [39] but rather to the finiteness of "solitonic atoms" capable to…”
Section: Atomic Spacetime Modelmentioning
confidence: 99%
“…It offers an "atomic model" of spacetime [2] [3] [4] [5] probably envisaged by A. Einstein in 1933 [1] as a "perfectly thinkable" "atomic theory" dealing with "simplest concepts and links between them" ( §1). Let's note that Atomization is not a simple discretization of space-separation of a volume into adjacent finite elements [22] [24] [38]. Here, the "finite elements" (AStrings) are overlapping ( §3, Figure 1) and capable to describe both expansions of space (4.9)…”
Section: Atomization Theorem For General Relativitymentioning
confidence: 99%