Add to ORKGWe experimentally demonstrate nanoscale thermal mapping of light induced heat in photonic and plasmonic devices using a thermocouple AFM tip. Numerical simulations results and nanoscale temperature measurements are presented and discussed. © OSA 2013
Tesina realitzada en col.laboració amb IFCO i CellexIn the course of this work a novel microscope wa...
Understanding how plasmonic nanoparticles collectively generate heat upon exposure to light and thus...
Thermal characterization of nano-featured devices is a critical challenge for the development of hig...
We experimentally demonstrate nanoscale thermal mapping of light induced heat in photonic and plasmo...
Side by side with the great advantages of plasmonics in nanoscale light confinement, the inevitable ...
Imaging temperature fields at the nanoscale is a central challenge in various areas of science and t...
Following the miniaturization of photonic devices and the increase in data rates, the issues of self...
International audienceMetallic nanoparticles possess strong photothermal responses, especially when ...
Modern microelectronic devices have nanoscale features that dissipate power nonuniformly, but fundam...
Polymer imprint thermal mapping (PITM) is a high-resolution thermal mapping technique that is especi...
In recent years, following the miniaturization and integration of passive and active nanophotonic de...
Light absorption and scattering of plasmonic metal nanoparticles can lead to non-equilibrium charge ...
The field of thermoplasmonics has thrived in the past decades because it uniquely provides remotely ...
The temperature-sensitive luminescence of nanoparticles enables their application as remote thermome...
Plasmonic absorption of light can lead to significant local heating in metallic nanostructures, an e...
Tesina realitzada en col.laboració amb IFCO i CellexIn the course of this work a novel microscope wa...
Understanding how plasmonic nanoparticles collectively generate heat upon exposure to light and thus...
Thermal characterization of nano-featured devices is a critical challenge for the development of hig...
We experimentally demonstrate nanoscale thermal mapping of light induced heat in photonic and plasmo...
Side by side with the great advantages of plasmonics in nanoscale light confinement, the inevitable ...
Imaging temperature fields at the nanoscale is a central challenge in various areas of science and t...
Following the miniaturization of photonic devices and the increase in data rates, the issues of self...
International audienceMetallic nanoparticles possess strong photothermal responses, especially when ...
Modern microelectronic devices have nanoscale features that dissipate power nonuniformly, but fundam...
Polymer imprint thermal mapping (PITM) is a high-resolution thermal mapping technique that is especi...
In recent years, following the miniaturization and integration of passive and active nanophotonic de...
Light absorption and scattering of plasmonic metal nanoparticles can lead to non-equilibrium charge ...
The field of thermoplasmonics has thrived in the past decades because it uniquely provides remotely ...
The temperature-sensitive luminescence of nanoparticles enables their application as remote thermome...
Plasmonic absorption of light can lead to significant local heating in metallic nanostructures, an e...
Tesina realitzada en col.laboració amb IFCO i CellexIn the course of this work a novel microscope wa...
Understanding how plasmonic nanoparticles collectively generate heat upon exposure to light and thus...
Thermal characterization of nano-featured devices is a critical challenge for the development of hig...