Owing to their ability to generate non-classical light states, quantum dots (QDs) are ideal candidates for the large-scale deployment of quantum information technologies. However, semiconductor QDs alone lack the high photon collection efficiency needed by these technologies. In this work we present a laser writing technique for the fabrication of QDs self-aligned with dielectric microspheres, which, in turn, increase the collection efficiency of the system of a factor 7.3 +/- 0.7. That technique exploits the use of photonic nanojets, produced by illuminating the microspheres, to selectively break the N-H bond in a GaAs/GaAs1-xNx:H/GaAs quantum well, thus fabricating GaAs1-xNx QDs.
Photonic jets writing of quantum dots with intrinsic photoluminescence collection enhancement(*) / Ristori, A; Hamilton, T; Felici, M; Pettinari, G; Gurioli, M; Mohseni, H; Biccari, F. - In: IL NUOVO CIMENTO C. - ISSN 2037-4909. - 45:6(2022). [10.1393/ncc/i2022-22179-3]
Photonic jets writing of quantum dots with intrinsic photoluminescence collection enhancement(*)
Felici, M;Pettinari, G;Gurioli, M;Biccari, F
2022
Abstract
Owing to their ability to generate non-classical light states, quantum dots (QDs) are ideal candidates for the large-scale deployment of quantum information technologies. However, semiconductor QDs alone lack the high photon collection efficiency needed by these technologies. In this work we present a laser writing technique for the fabrication of QDs self-aligned with dielectric microspheres, which, in turn, increase the collection efficiency of the system of a factor 7.3 +/- 0.7. That technique exploits the use of photonic nanojets, produced by illuminating the microspheres, to selectively break the N-H bond in a GaAs/GaAs1-xNx:H/GaAs quantum well, thus fabricating GaAs1-xNx QDs.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
