Y. Behovits scite author profile

A strong increase of spontaneous radiative emission from colloidally synthesized CdSe/CdS/PMMA hybrid particles is achieved when manipulated into plasmonic bullseye resonators with the tip of an atomic force microscope (AFM). This type of antenna provides a broadband resonance, which may be precisely matched to the exciton ground state energy in the inorganic cores. Statistically analyzing the spectral photoluminescence (PL) of a large number of individual coupled and uncoupled CdSe/CdS/PMMA quantum dots, we find an order of magnitude of intensity enhancement due to the Purcell effect. Time-resolved PL shows a commensurate increase of the spontaneous emission rate with radiative lifetimes below 230 ps for the bright exciton transition. The combination of AFM and PL imaging allows for sub-200 nm localization of the particle position inside the plasmonic antenna. This capability unveils a different coupling behavior of dark excitonic states: even stronger PL enhancement occurs at positions with maximum spatial gradient of the nearfield, effectively adding a dipolar component to original quadrupole transitions. The broadband maximization of light-matter interaction provided by our nanoengineered compound systems enables an attractive class of future experiments in ultrafast quantum optics.

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Ultrafast Demagnetization of Iron Induced by Optical versus Terahertz Pulses

Chekhov

Behovits

Heitz

et al. 2021

Phys. Rev. X

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Broadband Spintronic Terahertz Source with Peak Electric Fields Exceeding 1.5 MV/cm

et al. 2023

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Y. Behovits

Efficient Emission Enhancement of Single CdSe/CdS/PMMA Quantum Dots through Controlled Near-Field Coupling to Plasmonic Bullseye Resonators

Ultrafast Demagnetization of Iron Induced by Optical versus Terahertz Pulses

Broadband Spintronic Terahertz Source with Peak Electric Fields Exceeding 1.5 MV/cm

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