Mesoscopic decoherence in Aharonov-Bohm rings

A. E. Hansen; A. Kristensen; S. Pedersen; C. B. Sørensen; P. E. Lindelof

doi:10.1103/PhysRevB.64.045327

Mesoscopic decoherence in Aharonov-Bohm rings

A. E. Hansen, A. Kristensen, S. Pedersen, C. B. Sørensen, P. E. Lindelof

134 Citations (Scopus)

Abstract

We study electron decoherence by measuring the temperature dependence of Aharonov-Bohm (AB) oscillations in quasi-one-dimensional rings, etched in a high-mobility GaAs/Ga_xAl_1-xAs heterostructure. The oscillation amplitude is influenced both by phase breaking and by thermal averaging. Thermal averaging is important when the temperature approaches the energy scale on which the AB oscillations shift their phase. For the phase breaking, it is demonstrated that the damping of the oscillation amplitude is proportional to the length of the interfering paths. For temperatures T from 0.3 to 4 K we find the phase-coherence length L_φ ∝T^-1, close to what has been reported for open quantum dots. This might indicate that the T^-1 decoherence rate is a general property of open and ballistic mesoscopic systems.

Original language	English
Article number	045327
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	64
Issue number	4
Pages (from-to)	453271-453275
Number of pages	5
ISSN	0163-1829
DOIs	https://doi.org/10.1103/PhysRevB.64.045327
Publication status	Published - 15 Jul 2001
Externally published	Yes

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title = "Mesoscopic decoherence in Aharonov-Bohm rings",

abstract = "We study electron decoherence by measuring the temperature dependence of Aharonov-Bohm (AB) oscillations in quasi-one-dimensional rings, etched in a high-mobility GaAs/GaxAl1-xAs heterostructure. The oscillation amplitude is influenced both by phase breaking and by thermal averaging. Thermal averaging is important when the temperature approaches the energy scale on which the AB oscillations shift their phase. For the phase breaking, it is demonstrated that the damping of the oscillation amplitude is proportional to the length of the interfering paths. For temperatures T from 0.3 to 4 K we find the phase-coherence length Lφ ∝T-1, close to what has been reported for open quantum dots. This might indicate that the T-1 decoherence rate is a general property of open and ballistic mesoscopic systems.",

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T1 - Mesoscopic decoherence in Aharonov-Bohm rings

AU - Hansen, A. E.

AU - Kristensen, A.

AU - Pedersen, S.

AU - Sørensen, C. B.

AU - Lindelof, P. E.

PY - 2001/7/15

Y1 - 2001/7/15

N2 - We study electron decoherence by measuring the temperature dependence of Aharonov-Bohm (AB) oscillations in quasi-one-dimensional rings, etched in a high-mobility GaAs/GaxAl1-xAs heterostructure. The oscillation amplitude is influenced both by phase breaking and by thermal averaging. Thermal averaging is important when the temperature approaches the energy scale on which the AB oscillations shift their phase. For the phase breaking, it is demonstrated that the damping of the oscillation amplitude is proportional to the length of the interfering paths. For temperatures T from 0.3 to 4 K we find the phase-coherence length Lφ ∝T-1, close to what has been reported for open quantum dots. This might indicate that the T-1 decoherence rate is a general property of open and ballistic mesoscopic systems.

AB - We study electron decoherence by measuring the temperature dependence of Aharonov-Bohm (AB) oscillations in quasi-one-dimensional rings, etched in a high-mobility GaAs/GaxAl1-xAs heterostructure. The oscillation amplitude is influenced both by phase breaking and by thermal averaging. Thermal averaging is important when the temperature approaches the energy scale on which the AB oscillations shift their phase. For the phase breaking, it is demonstrated that the damping of the oscillation amplitude is proportional to the length of the interfering paths. For temperatures T from 0.3 to 4 K we find the phase-coherence length Lφ ∝T-1, close to what has been reported for open quantum dots. This might indicate that the T-1 decoherence rate is a general property of open and ballistic mesoscopic systems.

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Mesoscopic decoherence in Aharonov-Bohm rings

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