Effect of illumination on quantum lifetime in GaAs quantum wells

X. Fu; A. Riedl; M. Borisov; M. A. Zudov; J. D. Watson; G. Gardner; M. J. Manfra; K. W. Baldwin; L. N. Pfeiffer; K. W. West

doi:10.1103/PhysRevB.98.195403

Effect of illumination on quantum lifetime in GaAs quantum wells

X. Fu, A. Riedl, M. Borisov, M. A. Zudov, J. D. Watson, G. Gardner, M. J. Manfra, K. W. Baldwin, L. N. Pfeiffer, K. W. West

Physics and Astronomy (Twin Cities)

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7 Scopus citations

Abstract

Low-temperature illumination of a two-dimensional electron gas in GaAs quantum wells is known to greatly improve the quality of high-field magnetotransport. The improvement is known to occur even when the carrier density and mobility remain unchanged, but what exactly causes it remains unclear. Here, we investigate the effect of illumination on microwave photoresistance in low magnetic fields. We find that the amplitude of microwave-induced resistance oscillations grows dramatically after illumination. Dingle analysis reveals that this growth reflects a substantial increase in the single-particle (quantum) lifetime, which likely originates from the light-induced redistribution of charge enhancing the screening capability of the doping layers.

Original language	English (US)
Article number	195403
Journal	Physical Review B
Volume	98
Issue number	19
DOIs	https://doi.org/10.1103/PhysRevB.98.195403
State	Published - Nov 5 2018

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© 2018 American Physical Society.

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title = "Effect of illumination on quantum lifetime in GaAs quantum wells",

abstract = "Low-temperature illumination of a two-dimensional electron gas in GaAs quantum wells is known to greatly improve the quality of high-field magnetotransport. The improvement is known to occur even when the carrier density and mobility remain unchanged, but what exactly causes it remains unclear. Here, we investigate the effect of illumination on microwave photoresistance in low magnetic fields. We find that the amplitude of microwave-induced resistance oscillations grows dramatically after illumination. Dingle analysis reveals that this growth reflects a substantial increase in the single-particle (quantum) lifetime, which likely originates from the light-induced redistribution of charge enhancing the screening capability of the doping layers.",

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AU - Fu, X.

AU - Riedl, A.

AU - Borisov, M.

AU - Zudov, M. A.

AU - Watson, J. D.

AU - Gardner, G.

AU - Manfra, M. J.

AU - Baldwin, K. W.

AU - Pfeiffer, L. N.

AU - West, K. W.

PY - 2018/11/5

Y1 - 2018/11/5

N2 - Low-temperature illumination of a two-dimensional electron gas in GaAs quantum wells is known to greatly improve the quality of high-field magnetotransport. The improvement is known to occur even when the carrier density and mobility remain unchanged, but what exactly causes it remains unclear. Here, we investigate the effect of illumination on microwave photoresistance in low magnetic fields. We find that the amplitude of microwave-induced resistance oscillations grows dramatically after illumination. Dingle analysis reveals that this growth reflects a substantial increase in the single-particle (quantum) lifetime, which likely originates from the light-induced redistribution of charge enhancing the screening capability of the doping layers.

AB - Low-temperature illumination of a two-dimensional electron gas in GaAs quantum wells is known to greatly improve the quality of high-field magnetotransport. The improvement is known to occur even when the carrier density and mobility remain unchanged, but what exactly causes it remains unclear. Here, we investigate the effect of illumination on microwave photoresistance in low magnetic fields. We find that the amplitude of microwave-induced resistance oscillations grows dramatically after illumination. Dingle analysis reveals that this growth reflects a substantial increase in the single-particle (quantum) lifetime, which likely originates from the light-induced redistribution of charge enhancing the screening capability of the doping layers.

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Effect of illumination on quantum lifetime in GaAs quantum wells

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