Reports in Advances of Physical Sciences (Jan 2024)
Quantum Entanglement and Space-Time Creation — Energy Basic State Field of the Universe (VI)
Abstract
In this paper, we review the concept and criterion of quantum entanglement in detail, review Bell’s inequality and Bell’s theorem, and introduce the historical experiment verification work on quantum entanglement. According to the physical view of EBSF we have proposed, the physical picture of quantum entanglement is analyzed in detail. We propose that: the invalidity of CHSH inequality means that the local realism — this logic of physics is only applicable to the physical level of matter particles, and is not applicable to quantum mechanics based on quantum states; quantum entanglement is an essential feature of QSS, and quantum entanglement mainly exists in quantum systems containing QSS. In the quantum system composed of QSS, because it is in the physical basic state of the completely symmetric quantum superfluid, mapped to the current space-time — Euclidean space —, “action at a distance” exists; the failure of CHSH inequality means that a quantum system (physical level) composed of QSS does not have Lorentz invariance and cannot be mathematically treated by the so-called QED or QCD field theory; a quantum system is composed of QSS whose space is a kind of quantum topology space; topological space evolves into Hilbert space, which evolves into present-day space (including classical space and general relativistic space); the space-time of the early universe is a kind of quantum topological space-time in condensed matter physics, and today’s space-time is embedded during certain stage of the evolution and condensation of the universe. However, we are confident that the effect of the QSS field (with quantum entanglement) on the existing QED and QCD quantum fields is weak under normal physical conditions.
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