We argue that the so-called entangled states in quantum theory are not something exceptional, deserving a special attention in our efforts to understand conceptual foundations of quantum world. They appear by constructing the basis states of a compound system via the basis states of entering subsystems and describe it as a wholeness. While a system is considered as a wholeness, the individual members, forming the entangled state, have no physical meaning. In consequence, there is no physical ground for Einstein, Podolsky and Rosen (EPR) correlations arising in a process of decaying the system, being in the entangled state, into its constituent parts. The same regards to Bell's introduced non-locality of quantum world
In this brief paper, we argue about some epistemological positions about quantum non-local...
Quantum entanglement is widely believed to be a feature of physical reality with undoubted (though d...
In 1935, Einstein, Podolsky and Rosen (EPR) originated the famous “EPR paradox” [1]. This ...
Quantum entanglement is the term used to describe a collection of particles for which the quantum st...
EPR paper 1 contains an error. Its correction leads to a conclusion that position and momentum of a ...
The famous EPR paradox shows that if we describe quantum particles in the usual way -- by their wave...
A generalization of the 1935 Einstein-Podolsky-Rosen (EPR) argument for measurements with continuous...
In quantum mechanics, the general state describing two or more particles is a linear superposition o...
The EPR problem is studied both from an instrumentalistic and from a realistic point of view. Bohr’s...
The EPR problem is studied both from an instrumentalistic and from a realistic point of view. Bohr's...
Abstract: EPR paper contains an error. Its correction leads to a conclusion that position and moment...
7 pagesWe argue that EPR-type correlations do not entail any form of "non-locality", when viewed in ...
Two events can instantaneously affect one another irrespective of the distance between them We can s...
This book is devoted to the presentation of the new quantum mechanical formalism based on the probab...
Up to now there seem to be no phenomenon which contradicts quantum theory. Moreover, recently, new a...
In this brief paper, we argue about some epistemological positions about quantum non-local...
Quantum entanglement is widely believed to be a feature of physical reality with undoubted (though d...
In 1935, Einstein, Podolsky and Rosen (EPR) originated the famous “EPR paradox” [1]. This ...
Quantum entanglement is the term used to describe a collection of particles for which the quantum st...
EPR paper 1 contains an error. Its correction leads to a conclusion that position and momentum of a ...
The famous EPR paradox shows that if we describe quantum particles in the usual way -- by their wave...
A generalization of the 1935 Einstein-Podolsky-Rosen (EPR) argument for measurements with continuous...
In quantum mechanics, the general state describing two or more particles is a linear superposition o...
The EPR problem is studied both from an instrumentalistic and from a realistic point of view. Bohr’s...
The EPR problem is studied both from an instrumentalistic and from a realistic point of view. Bohr's...
Abstract: EPR paper contains an error. Its correction leads to a conclusion that position and moment...
7 pagesWe argue that EPR-type correlations do not entail any form of "non-locality", when viewed in ...
Two events can instantaneously affect one another irrespective of the distance between them We can s...
This book is devoted to the presentation of the new quantum mechanical formalism based on the probab...
Up to now there seem to be no phenomenon which contradicts quantum theory. Moreover, recently, new a...
In this brief paper, we argue about some epistemological positions about quantum non-local...
Quantum entanglement is widely believed to be a feature of physical reality with undoubted (though d...
In 1935, Einstein, Podolsky and Rosen (EPR) originated the famous “EPR paradox” [1]. This ...
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