The unavoidable information flow to environment in quantum measurements

: Haapasalo E, Heinosaari T, Miyadera T

Publisher: AMER INST PHYSICS

: 2018

: Journal of Mathematical Physics

: JOURNAL OF MATHEMATICAL PHYSICS

: J MATH PHYS

: ARTN 082106

: 59

: 8

: 19

: 0022-2488

: 1089-7658

DOI: https://doi.org/10.1063/1.5029399

One of the basic lessons of quantum theory is that one cannot obtain information on an unknown quantum state without disturbing it. Hence, by performing a certain measurement, we limit the other possible measurements that can be effectively implemented on the original input state. It has been recently shown by two of the authors of the present article [T. Heinosaari and T. Miyadera, Phys. Rev. A 91, 022110 (2015)] that one can implement sequentially any device, either channel or observable, which is compatible with the first measurement. In this work, we prove that this can be done, apart from some special cases, only when the succeeding device is implemented on a larger system than just the input system. This means that some part of the still available quantum information has been flown to the environment and cannot be gathered by accessing the input system only. We characterize the size of the post-measurement system by determining the class of measurements for the observable in question that allow the subsequent realization of any measurement process compatible with the said observable. We also study the class of measurements that allow the subsequent realization of any observable jointly measurable with the first one and show that these two classes coincide when the first observable is extreme. Published by AIP Publishing.