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Observation of Coulomb-Assisted Dipole-Forbidden Intraexciton Transitions in Semiconductors

We use terahertz pulses to induce resonant transitions between the eigenstates of optically generated exciton populations in a high-quality semiconductor quantum-well sample. Monitoring the excitonic photoluminescence, we observe transient quenching of the $1s$ exciton emission, which we attribute to the terahertz-induced $1s$-to-$2p$ excitation. Simultaneously, a pronounced enhancement of the $2s$-exciton emission is observed, despite the $1s$-to-$2s$ transition being dipole forbidden. A microscopic many-body theory explains the experimental observations as a Coulomb-scattering mixing of the 2$s$ and 2$p$ states, yielding an effective terahertz transition between the 1$s$ and 2$s$ populations.

preprint2012arXivOpen access
W. D. RiceJ. KonoS. ZybellS. WinnerlJ. BhattacharyyaH. SchneiderM. HelmB. EwersA. ChernikovM. KochS. ChatterjeeG. KhitrovaH. M. GibbsL. SchneebeliB. BreddermannM. KiraS. W. Koch
cond-mat.mes-hall
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Open access17 authors1 topic
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W. D. RiceJ. KonoS. ZybellS. WinnerlJ. BhattacharyyaH. SchneiderM. HelmB. EwersA. ChernikovM. KochS. ChatterjeeG. KhitrovaH. M. GibbsL. SchneebeliB. BreddermannM. KiraS. W. Koch

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