Interferometric correlation spectroscopy is performed to investigate the decoherence dynamics of localized excited states in a single GaAs/AlGaAs quantum ring. For increasing temperature and excitation, we observe that the decay of interferometric envelope and the Fourier-transformed spectrum remain exponential and Lorentzian, respectively. The linewidth broadening for temperature and excitation intensity can be attributed to enhanced acoustic phonon scattering and Auger scattering in the fast modulation limit through the barrier traps, where carriers are captured and escape randomly. Additionally, we suggest an internal scattering between the different vertical confinement states for the significantly short coherence time (<25 ps) compared to that observed in quantum dots.
Kim, M., Park, S., Yamashita, Y., Kyhm, K., Ikezawa, M., Bietti, S., et al. (2018). Decoherence Dynamics of Localized States in a Single GaAs/AlGaAs Quantum Ring. PHYSICA STATUS SOLIDI. RAPID RESEARCH LETTERS, 12(9) [10.1002/pssr.201800176].
Decoherence Dynamics of Localized States in a Single GaAs/AlGaAs Quantum Ring
Bietti, S;Sanguinetti, S
2018
Abstract
Interferometric correlation spectroscopy is performed to investigate the decoherence dynamics of localized excited states in a single GaAs/AlGaAs quantum ring. For increasing temperature and excitation, we observe that the decay of interferometric envelope and the Fourier-transformed spectrum remain exponential and Lorentzian, respectively. The linewidth broadening for temperature and excitation intensity can be attributed to enhanced acoustic phonon scattering and Auger scattering in the fast modulation limit through the barrier traps, where carriers are captured and escape randomly. Additionally, we suggest an internal scattering between the different vertical confinement states for the significantly short coherence time (<25 ps) compared to that observed in quantum dots.
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