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Abstract
The intention of this paper is to provide an easy to understand introduction to the peculiarities of entangled systems. A novel description for strong (mass entanglement) and weak (spin-or-bital and thermal entanglement) quantum entangled particles is discussed and applied to the phenomena of superconductivity, superfluidity and ultracold gases. A brief statement about how to represent the physical reality of quantum-entanglement as Quantum-Field-Theory (QFT) is noted.
Highlights
The word “nature” is derived from the Latin word natura with the physical meaning of “essential quality” or “innate disposition”
A conservation law states that a particular measurable property of a physical system doesn’t change as the system evolves, where entanglement describes the correlated evolution of the whole physical system to retain these conservation laws
In particle physics other conservation laws such as baryon number, lepton number and strangeness apply to properties of subatomic particles that are invariant during an interaction
Summary
The word “nature” is derived from the Latin word natura with the physical meaning of “essential quality” or “innate disposition”. In this sense I would like to show you how conservation laws and entanglement are inevitable parts of our physical thoughts. In particle physics other conservation laws such as baryon number, lepton number and strangeness apply to properties of subatomic particles that are invariant during an interaction. In case of strong entangled particles the entanglement can’t be shared with its environment, while weak entangled particles such as cooper-pairs or Bose-Einstein-condensates (BEC) can change its shape, where only the overall entanglement stays the same.
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