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Two-photon interference of the emission from electrically tunable remote quantum dots

2010; Nature Portfolio; Volume: 4; Issue: 9 Linguagem: Inglês

10.1038/nphoton.2010.161

1749-4893

Raj B. Patel, A. J. Bennett, I. Farrer, C. A. Nicoll, D. A. Ritchie, A. J. Shields,

Quantum Information and Cryptography

Single semiconductor quantum dots have been widely studied within devices that can apply an electric field. In the most common system, the low energy offset between the InGaAs quantum dot and the surrounding GaAs material limits the magnitude of field that can be applied to tens of kVcm^-1, before carriers tunnel out of the dot. The Stark shift experienced by the emission line is typically 1 meV. We report that by embedding the quantum dots in a quantum well heterostructure the vertical field that can be applied is increased by over an order of magnitude whilst preserving the narrow linewidths, high internal quantum efficiencies and familiar emission spectra. Individual dots can then be continuously tuned to the same energy allowing for two-photon interference between remote, independent, quantum dots.