Category: Other Events
State: Archived
30 May 2022 at 2,00 pm ONLINE

Cycle of seminars INRiM - Organic molecules for photonic quantum science and technologies

On Google Meet platform

The successful development of future photonic quantum technologies will much depend on the possibility of realizing robust and scalable nanophotonic devices.
These should include quantum emitters like on-demand single-photon sources and non-linear elements, provided their transition linewidth is broadened only by spontaneous emission. However, conventional strategies to on-chip integration, based on lithographic processes in semiconductors, are typically detrimental for the coherence properties of the emitter. Moreover, such approaches are difficult to scale and bear limitations in terms of geometries. In the present contribution, will be discussed an alternative platform, based on molecules that retain an almost Fourier-limited fluorescence even when incorporating in polymeric photonic structures.
Anthracene nanocrystals doped with dibenzoterrylene (DBT:Ac NCX) fluorescent molecules show excellent performances of single-photon emission and are naturally suitable both to deterministic positioning and to the integration in hybrid devices.

Three-dimensional patterns are achieved by Direct Laser Writing (DLW) of commercial photoresists around self-assembled organic nanocrystals containing fluorescent molecules. This method enables fast, inexpensive and scalable fabrication process, while offering unique advantages in terms of versatility and sub-micron resolution. Will also be shown optical optimization of many on-chip molecules, unblocking the interference of two photons from distinct on-chip emitters.

The proposed technology will allow for competitive organic quantum devices, including integrated multi-photon interferometers, arrays of indistinguishable single-photon sources and hybrid electro-optical nanophotonic chips.

Speaker: Costanza Toninelli
Affiliation: CNR-INO & LENS

For more information visit the INRiM web site or contact comunicazione@inrim.it.
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