Superradiant decay of cyclotron resonance of two-dimensional electron gases

Qi Zhang; Takashi Arikawa; Eiji Kato; John L. Reno; Wei Pan; John D. Watson; Michael J. Manfra; Michael A. Zudov; Mikhail Tokman; Maria Erukhimova; Alexey Belyanin; Junichiro Kono

doi:10.1103/PhysRevLett.113.047601

Superradiant decay of cyclotron resonance of two-dimensional electron gases

Qi Zhang, Takashi Arikawa, Eiji Kato, John L. Reno, Wei Pan, John D. Watson, Michael J. Manfra, Michael A. Zudov, Mikhail Tokman, Maria Erukhimova, Alexey Belyanin, Junichiro Kono

Physics and Astronomy (Twin Cities)

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

93 Scopus citations

Abstract

We report on the observation of collective radiative decay, or superradiance, of cyclotron resonance (CR) in high-mobility two-dimensional electron gases in GaAs quantum wells using time-domain terahertz magnetospectroscopy. The decay rate of coherent CR oscillations increases linearly with the electron density in a wide range, which is a hallmark of superradiant damping. Our fully quantum mechanical theory provides a universal formula for the decay rate, which reproduces our experimental data without any adjustable parameter. These results firmly establish the many-body nature of CR decoherence in this system, despite the fact that the CR frequency is immune to electron-electron interactions due to Kohn's theorem.

Original language	English (US)
Article number	047601
Journal	Physical review letters
Volume	113
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevLett.113.047601
State	Published - Jul 21 2014

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abstract = "We report on the observation of collective radiative decay, or superradiance, of cyclotron resonance (CR) in high-mobility two-dimensional electron gases in GaAs quantum wells using time-domain terahertz magnetospectroscopy. The decay rate of coherent CR oscillations increases linearly with the electron density in a wide range, which is a hallmark of superradiant damping. Our fully quantum mechanical theory provides a universal formula for the decay rate, which reproduces our experimental data without any adjustable parameter. These results firmly establish the many-body nature of CR decoherence in this system, despite the fact that the CR frequency is immune to electron-electron interactions due to Kohn's theorem.",

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AU - Zhang, Qi

AU - Arikawa, Takashi

AU - Kato, Eiji

AU - Reno, John L.

AU - Pan, Wei

AU - Watson, John D.

AU - Manfra, Michael J.

AU - Zudov, Michael A.

AU - Tokman, Mikhail

AU - Erukhimova, Maria

AU - Belyanin, Alexey

AU - Kono, Junichiro

PY - 2014/7/21

Y1 - 2014/7/21

N2 - We report on the observation of collective radiative decay, or superradiance, of cyclotron resonance (CR) in high-mobility two-dimensional electron gases in GaAs quantum wells using time-domain terahertz magnetospectroscopy. The decay rate of coherent CR oscillations increases linearly with the electron density in a wide range, which is a hallmark of superradiant damping. Our fully quantum mechanical theory provides a universal formula for the decay rate, which reproduces our experimental data without any adjustable parameter. These results firmly establish the many-body nature of CR decoherence in this system, despite the fact that the CR frequency is immune to electron-electron interactions due to Kohn's theorem.

AB - We report on the observation of collective radiative decay, or superradiance, of cyclotron resonance (CR) in high-mobility two-dimensional electron gases in GaAs quantum wells using time-domain terahertz magnetospectroscopy. The decay rate of coherent CR oscillations increases linearly with the electron density in a wide range, which is a hallmark of superradiant damping. Our fully quantum mechanical theory provides a universal formula for the decay rate, which reproduces our experimental data without any adjustable parameter. These results firmly establish the many-body nature of CR decoherence in this system, despite the fact that the CR frequency is immune to electron-electron interactions due to Kohn's theorem.

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Superradiant decay of cyclotron resonance of two-dimensional electron gases

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