Efficient quantum light sources and non-linear optical elements at the few photon level are the basic ingredients for most applications in nano and quantum technologies. On the other hand, a scalable platform for quantum information and communication typically requires reliable light matter interfaces and on-chip integration. In this work we demonstrate the potential of a novel hybrid technology which combines single organic molecules as quantum emitters and dielectric chips, consisting of ridge waveguides and grating far-field couplers.
Photostable Molecules on Chip: Integrated Single Photon Sources for Quantum Technologies / Lombardi, P; Ovvyan, AP; Pazzagli, S; Mazzamuto, G; Kewes, G; Neitzke, O; Gruhler, N; Benson, O; Pernice, WHP; Cataliotti, FS; Toninelli, C. - ELETTRONICO. - (2017), pp. 16-16. (Intervento presentato al convegno 2017 European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference).
Photostable Molecules on Chip: Integrated Single Photon Sources for Quantum Technologies
Lombardi, P;Pazzagli, S;Mazzamuto, G;Pernice, WHP;Cataliotti, FS;Toninelli, C
2017
Abstract
Efficient quantum light sources and non-linear optical elements at the few photon level are the basic ingredients for most applications in nano and quantum technologies. On the other hand, a scalable platform for quantum information and communication typically requires reliable light matter interfaces and on-chip integration. In this work we demonstrate the potential of a novel hybrid technology which combines single organic molecules as quantum emitters and dielectric chips, consisting of ridge waveguides and grating far-field couplers.
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