Physics – Quantum Physics
Scientific paper
2010-05-20
Int. J. Quant. Inf. 9, 331 (2011)
Physics
Quantum Physics
19 pages, Submitted to Int. J. Quant. Inf; Talk given at 'Quantum Communications and Computations' conference, Rome, September
Scientific paper
The quantum-mechanical constraints on the information transfer in the measuring devices and systems and their influence on measurement outcomes are studied. As the model example, the measurement of dichotomic observable A, describing the object S, is performed by the information system O during S,O interaction. The measurement of two S ensembles is considered, first one is the pure ensemble, in which S state is the superposition of A eigenstates |S1>,|S2> other one is their probabilistic mixture. It is shown that these information constraints induced by Heisenberg commutation relations bloke the transfer of information about the purity of S state; for the studied ensembles it is described by the expectation value of observable A', conjugated to A. Due to these restrictions, O can't discriminate the pure and mixed S ensembles with the same A expectation value. We demonstrate that this information losses result in the appearance of stochasticity in the measurement of such S pure ensemble, so that in the individual events O would detect the random 'pointer' values O1,O2, which describe the outcome for O measurement of incoming A eigenstates |S1,2>. The influence of O decoherence by its environment is studied, it's shown that the account of its effects doesn't change this results principally.
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