Results 211 to 220 of about 6,445 (252)

Experiment and the foundations of quantum physics

Reviews of Modern Physics, 1999
Quantum physics, a child of the early 20th century, is probably the most successful description of nature ever invented by man. The range of phenomena it has been applied to is enormous. It covers phenomena from the elementary-particle level all me way to the physics of the early universe.
Anton Zeilinger
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Foundations for Quantum Mechanics

Journal of Mathematical Physics, 1970
A discussion is given of the structure of a physical theory and an ``ideal form'' for such a theory is proposed. The essential feature is that all concepts should be defined in operational terms. Quantum (and classical) mechanics is then formulated in this way (the formulation being, however, restricted to the kinematical theory).
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Foundation for Quantum Computing

International Journal of Theoretical Physics, 2003
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
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Foundations of Quantum Technology

Journal of Computational and Theoretical Nanoscience, 2005
Recent progress in fabrication and control of single quantum systems presage a nascent technology based on quantum principles. We review these principles in the context of specific examples including: quantum dots, quantum electromechanical systems, quantum communication and quantum computation.
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Foundations for Quantum Statistics

Journal of Mathematical Physics, 1968
A derivation of Fermi and Bose statistics is given, based on the general structure of quantum mechanics, together with a simple axiom of direct physical significance. The axiom concerns an operation, denoted by ∘, forming the union of two states; ψ ∘φ denotes the state of a compound system whose parts are in the states ψ and φ.
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