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Main Authors: Matsushita, Tomonori, Hofmann, Holger F.
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2309.01932
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author Matsushita, Tomonori
Hofmann, Holger F.
author_facet Matsushita, Tomonori
Hofmann, Holger F.
contents Measurements map the value of a target observable onto a meter shift, resulting in a meter readout that combines the initial statistics of the meter state with the quantum statistics of the target observable. Even in the limit of weak measurement interactions, some information about the fluctuations of the target observable can be extracted from the change in the readout fluctuations caused by the measurement interaction. Here, we apply the Heisenberg picture to analyze the changes in the meter readout statistics caused by sufficiently weak measurement interactions, including the effects of non-linearities in the meter response. When additional information is obtained in a subsequent measurement of the system, the meter fluctuations are modified based on the post-selected statistics of the target observable. In addition, our analysis reveals a direct modification of the meter fluctuations due to the dependence of the post-selection probability on the dynamics induced by the meter in the measurement interaction. We point out that the quantum formalism makes it difficult to distinguish this dynamic term from the physical fluctuations of the target observable and stress the importance of distinguishing between genuine conditional fluctuations of the target observable and the dynamic pseudovariance associated with the measurement back-action.
format Preprint
id arxiv_https___arxiv_org_abs_2309_01932
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Origin of meter fluctuations in weak measurement interactions
Matsushita, Tomonori
Hofmann, Holger F.
Quantum Physics
Measurements map the value of a target observable onto a meter shift, resulting in a meter readout that combines the initial statistics of the meter state with the quantum statistics of the target observable. Even in the limit of weak measurement interactions, some information about the fluctuations of the target observable can be extracted from the change in the readout fluctuations caused by the measurement interaction. Here, we apply the Heisenberg picture to analyze the changes in the meter readout statistics caused by sufficiently weak measurement interactions, including the effects of non-linearities in the meter response. When additional information is obtained in a subsequent measurement of the system, the meter fluctuations are modified based on the post-selected statistics of the target observable. In addition, our analysis reveals a direct modification of the meter fluctuations due to the dependence of the post-selection probability on the dynamics induced by the meter in the measurement interaction. We point out that the quantum formalism makes it difficult to distinguish this dynamic term from the physical fluctuations of the target observable and stress the importance of distinguishing between genuine conditional fluctuations of the target observable and the dynamic pseudovariance associated with the measurement back-action.
title Origin of meter fluctuations in weak measurement interactions
topic Quantum Physics
url https://arxiv.org/abs/2309.01932