Measuring the Transmission Phase of a Quantum Dot in a Closed Interferometer

Amnon Aharony; Ora Entin-Wohlman; Yoseph Imry

doi:10.1103/PhysRevLett.90.156802

Measuring the Transmission Phase of a Quantum Dot in a Closed Interferometer

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Abstract

The electron transmission through a closed Aharonov-Bohm mesoscopic solid-state interferometer, with a quantum dot (QD) on one of the paths, is calculated exactly for a simple model. Although the conductance is an even function of the magnetic flux (due to Onsager’s relations), in many cases one can use the measured conductance to extract both the amplitude and the phase of the “intrinsic” transmission amplitude [Formula presented] through the “bare” QD. We also propose to compare this indirect measurement with the (hitherto untested) direct relation [Formula presented].

Original language	English
Pages (from-to)	4
Number of pages	1
Journal	Physical Review Letters
Volume	90
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevLett.90.156802
State	Published - 1 Jan 2003
Externally published	Yes

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General Physics and Astronomy

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10.1103/PhysRevLett.90.156802

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title = "Measuring the Transmission Phase of a Quantum Dot in a Closed Interferometer",

abstract = "The electron transmission through a closed Aharonov-Bohm mesoscopic solid-state interferometer, with a quantum dot (QD) on one of the paths, is calculated exactly for a simple model. Although the conductance is an even function of the magnetic flux (due to Onsager{\textquoteright}s relations), in many cases one can use the measured conductance to extract both the amplitude and the phase of the “intrinsic” transmission amplitude [Formula presented] through the “bare” QD. We also propose to compare this indirect measurement with the (hitherto untested) direct relation [Formula presented].",

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AU - Entin-Wohlman, Ora

AU - Imry, Yoseph

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N2 - The electron transmission through a closed Aharonov-Bohm mesoscopic solid-state interferometer, with a quantum dot (QD) on one of the paths, is calculated exactly for a simple model. Although the conductance is an even function of the magnetic flux (due to Onsager’s relations), in many cases one can use the measured conductance to extract both the amplitude and the phase of the “intrinsic” transmission amplitude [Formula presented] through the “bare” QD. We also propose to compare this indirect measurement with the (hitherto untested) direct relation [Formula presented].

AB - The electron transmission through a closed Aharonov-Bohm mesoscopic solid-state interferometer, with a quantum dot (QD) on one of the paths, is calculated exactly for a simple model. Although the conductance is an even function of the magnetic flux (due to Onsager’s relations), in many cases one can use the measured conductance to extract both the amplitude and the phase of the “intrinsic” transmission amplitude [Formula presented] through the “bare” QD. We also propose to compare this indirect measurement with the (hitherto untested) direct relation [Formula presented].

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Measuring the Transmission Phase of a Quantum Dot in a Closed Interferometer

Abstract

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