Add to ORKGABSTRACT: Plasmonic nanoantennas are efficient devices to concentrate light in spatial regions much smaller than the wavelength. Only recently, their ability to manipulate photons also on a femtosecond time scale has been harnessed. Nevertheless, designing the dynamical properties of optical antennas has been difficult since the relevant microscopic processes governing their ultrafast response have remained unclear. Here, we exploit frequency-resolved optical gating to directly investigate plasmon response times of different antenna geometries resonant in the near-infrared. Third-harmonic imaging is used in parallel to spatially monitor the plasmonic mode patterns. We find that the few-femtosecond dynamics of these nanodevices is dominated ...
We propose a broad-band near-infrared trapezoidal plasmonic nanoantenna, analyze it numerically usin...
The field of nanophotonics is finding myriad applications in telecommunications and information tech...
ABSTRACT The precise characterization of the ultrafast optical response of metals and metallic nanos...
Plasmonic nanoantennas are efficient devices to concentrate light in spatial regions much smaller th...
Femtosecond optical pulses tunable in the near infrared are exploited to drive third harmonic genera...
A metal nanoparticle can be considered as consisting of a base of positive ion cores and a sea of fr...
We have theoretically demonstrated femtosecond pulse manipulation at the nanoscale using the plasmon...
We study by femtosecond pump−probe microscopy the transient plasmonic response of individual gold na...
We demonstrate third harmonic generation in plasmonic antennas consisting of highly doped germanium ...
The local enhancement of few-cycle laser pulses by plasmonic nanostructures opens up for spatiotempo...
We study by femtosecond pump–probe microscopy the transient plasmonic response of individual gold na...
Plasmonic dimer nanoantennas are characterized by a strong enhancement of the optical field, leading...
Unveiling the spatial and temporal dynamics of a light pulse interacting with nanosized objects is o...
peer reviewedUnveiling the spatial and temporal dynamics of a light pulse interacting with nanosized...
The research area of plasmonics promises devices with ultrasmall footprint operating at ultrafast sp...
We propose a broad-band near-infrared trapezoidal plasmonic nanoantenna, analyze it numerically usin...
The field of nanophotonics is finding myriad applications in telecommunications and information tech...
ABSTRACT The precise characterization of the ultrafast optical response of metals and metallic nanos...
Plasmonic nanoantennas are efficient devices to concentrate light in spatial regions much smaller th...
Femtosecond optical pulses tunable in the near infrared are exploited to drive third harmonic genera...
A metal nanoparticle can be considered as consisting of a base of positive ion cores and a sea of fr...
We have theoretically demonstrated femtosecond pulse manipulation at the nanoscale using the plasmon...
We study by femtosecond pump−probe microscopy the transient plasmonic response of individual gold na...
We demonstrate third harmonic generation in plasmonic antennas consisting of highly doped germanium ...
The local enhancement of few-cycle laser pulses by plasmonic nanostructures opens up for spatiotempo...
We study by femtosecond pump–probe microscopy the transient plasmonic response of individual gold na...
Plasmonic dimer nanoantennas are characterized by a strong enhancement of the optical field, leading...
Unveiling the spatial and temporal dynamics of a light pulse interacting with nanosized objects is o...
peer reviewedUnveiling the spatial and temporal dynamics of a light pulse interacting with nanosized...
The research area of plasmonics promises devices with ultrasmall footprint operating at ultrafast sp...
We propose a broad-band near-infrared trapezoidal plasmonic nanoantenna, analyze it numerically usin...
The field of nanophotonics is finding myriad applications in telecommunications and information tech...
ABSTRACT The precise characterization of the ultrafast optical response of metals and metallic nanos...