How Quantum Computers Work  tecHindustan
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Computers , Quantum , TecHindustan , Work
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tecHindustan
Entertainment
30 months ago
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Quantum Computer: Quantum Model and Reality
1. Can a quantum model unlike a classical model coincide with reality? 2. Is reality interpretable as a quantum computer?3. Can physical processes be understood better and more generally as computations of quantum computer?4. Is quantum information the real fundament of the world? 5. Does the conception of quantum computer unify physics and mathematics and thus the material and the ideal world?6. Is quantum computer a nonTuring machine in principle? 7. Can a quantum computation be interpreted as an infinite classical computational process of a Turing machine? 8. Does quantum computer introduce the notion of “actually infinite computational process”?
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Computer , Information , Quantum
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vasil7penchev
Science & Technology
83 months ago
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Quantum Imaging
The aim of Quantum Imaging is to demonstrate that one will benefit at an equivalent time of the quantum mechanical aspects of sunshine. Quantum imaging may be a new subfield of quantum optics that exploits quantum correlations. The quantum entanglement of the electromagnetic field in order to image objects with a resolution.
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Imaging , Quantum
By:
xuscanada
Business & Finance
8 months ago
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Hilbert Space and pseudoRiemannian Space: Quantum Information
Hilbert space underlying quantum mechanics and pseudoRiemannian space underlying general relativity share a common base of quantum information. Hilbert space can be interpreted as the free variable of quantum information, and any point in it, being equivalent to a wave function (and thus, to a state of a quantum system), as a value of that variable of quantum information. In turn, pseudoRiemannian space can be interpreted as the interaction of two or more quantities of quantum information and thus, as two or more entangled quantum systems. Consequently, one can distinguish local physical interactions describable by a single Hilbert space (or by any factorizable tensor product of such ones) and nonlocal physical interactions describable only by means by that Hilbert space, which cannot be factorized as any tensor product of the Hilbert spaces, by means of which one can describe the interacting quantum subsystems separately. Any interaction, which can be exhaustedly described in a single Hilbert space, such as the weak, strong, and electromagnetic one, is local in terms of quantum information. Any interaction, which cannot be described thus, is nonlocal in terms of quantum information. Any interaction, which is exhaustedly describable by pseudoRiemannian space, such as gravity, is nonlocal in this sense. Consequently all known physical interaction can be described by a single geometrical base interpreting it in terms of quantum information.
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By:
vasil7penchev
Entertainment
38 months ago
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