Time-resolved quantum measurements using active detectors

O. Steuernagel; H. Rabitz

doi:10.1103/PhysRevA.57.1329

Time-resolved quantum measurements using active detectors

O. Steuernagel, H. Rabitz

Research output: Contribution to journal › Article › peer-review

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Abstract

Time-resolved quantum measurements using active detectors are analyzed. It is shown that the time-resolved observation of a quantum field leads to a mode mismatch between observed field and detection device that unavoidably introduces vacuum modes into the measurement. When active detectors are used, this gives rise to considerable background noise. The same conclusion may be drawn when considering other highly resolved quantum measurements of, e.g., energy, position, etc. Special emphasis is put on the analysis of time-resolved optical homodyne detection as an important example of an active detector.

Original language	English
Article number	1329
Journal	Physical Review A
Volume	57
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevA.57.1329
Publication status	Published - 1998

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title = "Time-resolved quantum measurements using active detectors",

abstract = "Time-resolved quantum measurements using active detectors are analyzed. It is shown that the time-resolved observation of a quantum field leads to a mode mismatch between observed field and detection device that unavoidably introduces vacuum modes into the measurement. When active detectors are used, this gives rise to considerable background noise. The same conclusion may be drawn when considering other highly resolved quantum measurements of, e.g., energy, position, etc. Special emphasis is put on the analysis of time-resolved optical homodyne detection as an important example of an active detector.",

author = "O. Steuernagel and H. Rabitz",

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N1 - Original article can be found at: http://pra.aps.org/ Copyright American Physical Society. [Full text of this article is not available in the UHRA]

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N2 - Time-resolved quantum measurements using active detectors are analyzed. It is shown that the time-resolved observation of a quantum field leads to a mode mismatch between observed field and detection device that unavoidably introduces vacuum modes into the measurement. When active detectors are used, this gives rise to considerable background noise. The same conclusion may be drawn when considering other highly resolved quantum measurements of, e.g., energy, position, etc. Special emphasis is put on the analysis of time-resolved optical homodyne detection as an important example of an active detector.

AB - Time-resolved quantum measurements using active detectors are analyzed. It is shown that the time-resolved observation of a quantum field leads to a mode mismatch between observed field and detection device that unavoidably introduces vacuum modes into the measurement. When active detectors are used, this gives rise to considerable background noise. The same conclusion may be drawn when considering other highly resolved quantum measurements of, e.g., energy, position, etc. Special emphasis is put on the analysis of time-resolved optical homodyne detection as an important example of an active detector.

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DO - 10.1103/PhysRevA.57.1329

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JO - Physical Review A

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Time-resolved quantum measurements using active detectors

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