Kazuya Okamura, Masanao Ozawa
Published 2018-08-31Version 1
We study universally valid uncertainty relations in general quantum systems described by general $\sigma$-finite von Neumann algebras to foster developing quantitative analysis in quantum systems with infinite degrees of freedom such as quantum fields. We obtain the most stringent measurement-disturbance relation ever, applicable to systems with infinite degrees of freedom, by refining the proofs given by Branciard and one of the authors (MO) for systems with finite degrees of freedom. In our proof the theory of the standard form of von Neumann algebras plays a crucial role, incorporating with measurement theory for local quantum systems recently developed by the authors.
Quantum mechanics in the general quantum systems (V): Hamiltonian eigenvalues
Quantum Mechanics in the general quantum systems (VI): exact series solution of stationary Schrödinger's equation
Quantum mechanics in general quantum systems (IV): Green operator and path integral
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