Dibenzoterrylene (DBT) molecules hosted in thin anthracene crystals are a versatile single photon source system. We study their coupling with external nanostructures.
Plasmonic structures prove as test beds for studying light-matter interaction at the fundamental level, while versatile hybrid antennas provide excellent means to modulate emission patterns for various applications, e.g. in quantum radiometry and metrology.
We exploit the interplay between order and disorder to control the onset of Anderson localized quasimodes in photonic slabs.
We envision a new generation of nanoscale devices, exploiting different coupling mechanisms between single emitters and a graphene monolayers, realizing quantum sensors and tuneable SPSs.
Monte Carlo simulations provide an exact solution for the Radiative Transfer Equation in turbid media, overcoming the limits of the diffusive approximation.