We demonstrate dynamic reversible switching of VO2 insulator-to-metal transition (IMT) locally on the scale of 15 nm or less and control of nanoantennas, observed for the first time in the near-field. Using polarization-selective near-field imaging techniques, we simultaneously monitor the IMT in VO2 and the change of plasmons on gold infrared nanoantennas. Structured nanodomains of the metallic VO2 locally and reversibly transform infrared plasmonic dipole nanoantennas to monopole nanoantennas. Fundamentally, the IMT in VO2 can be triggered on femtosecond timescale to allow ultrafast nanoscale control of optical phenomena. These unique features open up promising novel applications in active nanophotonics
Plasmonics could bridge the gap between photonics and electronics at the nanoscale, by allowing the...
The crystal structure of phase-change materials can be reconfigured by external stimuli, which often...
Plasmonics could bridge the gap between photonics and electronics at the nanoscale, by allowing the ...
We demonstrate dynamic reversible switching of VO2 insulator-to-metal transition (IMT) locally on th...
Nanoscale devices in which the interaction with light can be configured using external control signa...
Correlated experimental and simulation studies on the modulation of Surface Plasmon Polaritons (SPP)...
The ultrafast concentration of electromagnetic energy in nanoscale volumes is one of the key feature...
Trabajo presentado a la Conferencia Española de Nanofotonica (Spanish Nanophotonics Conference) cele...
Philosophiae Doctor - PhDThe fascinating optical properties of metallic nanostructures, dominated by...
Resumen del trabajo presentado a la Spanish Conference on Nanophotonics (Conferencia Española de Nan...
Metal–insulator transition (MIT) in strongly correlated electronic materials has enormous potential ...
We demonstrate experimentally picosecond all-optical control of a single plasmonic nanoantenna embed...
This dissertation focuses on nanoscale phase manipulations of Vanadium Dioxide. Nanoscale control of...
We demonstrate the modulation of the transmission of near-infrared light through a periodic array of...
This thesis presents fundamental research on potential materials and concepts for active photonic el...
Plasmonics could bridge the gap between photonics and electronics at the nanoscale, by allowing the...
The crystal structure of phase-change materials can be reconfigured by external stimuli, which often...
Plasmonics could bridge the gap between photonics and electronics at the nanoscale, by allowing the ...
We demonstrate dynamic reversible switching of VO2 insulator-to-metal transition (IMT) locally on th...
Nanoscale devices in which the interaction with light can be configured using external control signa...
Correlated experimental and simulation studies on the modulation of Surface Plasmon Polaritons (SPP)...
The ultrafast concentration of electromagnetic energy in nanoscale volumes is one of the key feature...
Trabajo presentado a la Conferencia Española de Nanofotonica (Spanish Nanophotonics Conference) cele...
Philosophiae Doctor - PhDThe fascinating optical properties of metallic nanostructures, dominated by...
Resumen del trabajo presentado a la Spanish Conference on Nanophotonics (Conferencia Española de Nan...
Metal–insulator transition (MIT) in strongly correlated electronic materials has enormous potential ...
We demonstrate experimentally picosecond all-optical control of a single plasmonic nanoantenna embed...
This dissertation focuses on nanoscale phase manipulations of Vanadium Dioxide. Nanoscale control of...
We demonstrate the modulation of the transmission of near-infrared light through a periodic array of...
This thesis presents fundamental research on potential materials and concepts for active photonic el...
Plasmonics could bridge the gap between photonics and electronics at the nanoscale, by allowing the...
The crystal structure of phase-change materials can be reconfigured by external stimuli, which often...
Plasmonics could bridge the gap between photonics and electronics at the nanoscale, by allowing the ...