Spin-selective optical absorption of singly charged excitons in a quantum dot

Spin-selective optical absorption of singly charged excitons in a quantum dot

We report high resolution laser absorption spectroscopy of a single InGaAs∕GaAs self-assembled quantum dot embedded in a field-effect structure. We show experimentally that the interband optical absorption to the lower Zeeman branch of the singly charged exciton is strongly inhibited due to spin (Pa...

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Veröffentlicht in:Applied physics letters 2005-05, Vol.86 (22)
Hauptverfasser: Högele, Alexander, Kroner, Martin, Seidl, Stefan, Karrai, Khaled, Atatüre, Mete, Dreiser, Jan, Imamoğlu, Atac, Warburton, Richard J., Badolato, Antonio, Gerardot, Brian D., Petroff, Pierre M.
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Sprache:eng
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Zusammenfassung:We report high resolution laser absorption spectroscopy of a single InGaAs∕GaAs self-assembled quantum dot embedded in a field-effect structure. We show experimentally that the interband optical absorption to the lower Zeeman branch of the singly charged exciton is strongly inhibited due to spin (Pauli) blockade of the optical transition. At high magnetic fields the optical absorption to the upper Zeeman branch dominates the absorption spectrum. We find, however, that the spin blockade is not complete and a 10% leakage remains at high magnetic fields. Applying a gate voltage to empty the dot of its resident electron turns the spin blockade off. This effect is observed at 1.5 K and up to 9 T.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.1940733