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W1485184915 abstract "The energy states in semiconductor quantum dots are discrete as in atoms, and quantum states can be coherently controlled with resonant laser pulses. Long coherence times allow the observation of Rabi flopping of a single dipole transition in a solid state device, for which occupancy of the upper state depends sensitively on the dipole moment and the excitation laser power. We report on the robust population inversion in a single quantum dot using an optical technique that exploits rapid adiabatic passage from the ground to an excited state through excitation with laser pulses whose frequency is swept through the resonance. This observation in photoluminescence experiments is made possible by introducing a novel optical detection scheme for the resonant electron hole pair (exciton) generation." @default.
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W1485184915 date "2011-04-18" @default.
W1485184915 modified "2023-10-15" @default.
W1485184915 title "Robust Quantum Dot Exciton Generation via Adiabatic Passage with Frequency-Swept Optical Pulses" @default.
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W1485184915 doi "https://doi.org/10.1103/physrevlett.106.166801" @default.
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