Add to ORKGABSTRACT: This paper reports the manipulation of surface plasmon polaritons (SPPs) in a liquid plasmonic metal by changing its physical phase. Dynamic properties were controlled by solid-to-liquid phase transitions in 1D Ga gratings that were fabricated using a simple molding process. Solid and liquid phases were found to exhibit different plasmonic properties, where light coupled to SPPs more efficiently in the liquid phase. We exploited the supercooling characteristics of Ga to access plasmonic properties associated with the liquid phase over a wider temperature range (up to 30 °C below the melting point of bulk Ga). Ab initio density functional theory−molecular dynamic calculations showed that the broadening of the solid-state electronic...
We show that the phase-change technology behind rewritable optical disks and the latest generation o...
Reconfigurable plasmonics is driving an extensive quest for active materials that can support a cont...
International audienceSilver and gallium form an alloy Ag2Ga via a room temperature spontaneous self...
This paper reports the manipulation of surface plasmon polaritons (SPPs) in a liquid plasmonic metal...
We report a method based on density functional theory molecular dynamics that allows us to calculate...
The interaction of light with matter has triggered the interest of scientists for a long time. The a...
One of the characteristics of dealing with photons is that many interesting and potentially useful o...
We demonstrate that liquid metals support surface plasmon-polaritons (SPPs) at terahertz (THz) freq...
This thesis covers contributions to the field of electromagnetic metamaterials, a broad, dynamic are...
Reconfigurable plasmonics constitutes an exciting and challenging new horizon in nanophotonics. This...
We report the discovery of a highly nonlinear material structure that supports surface plasmon-polar...
In this work we use nonlinear optical properties of Ga nanoparticles monolayers of different average...
We have developed a concept for active plasmonics that exploits nanoscale structural transformations...
The phase-change technology behind rewritable optical disks and the latest generation of electronic ...
Abstract. In this work we use nonlinear optical properties of Ga nanoparticles monolayers of differe...
We show that the phase-change technology behind rewritable optical disks and the latest generation o...
Reconfigurable plasmonics is driving an extensive quest for active materials that can support a cont...
International audienceSilver and gallium form an alloy Ag2Ga via a room temperature spontaneous self...
This paper reports the manipulation of surface plasmon polaritons (SPPs) in a liquid plasmonic metal...
We report a method based on density functional theory molecular dynamics that allows us to calculate...
The interaction of light with matter has triggered the interest of scientists for a long time. The a...
One of the characteristics of dealing with photons is that many interesting and potentially useful o...
We demonstrate that liquid metals support surface plasmon-polaritons (SPPs) at terahertz (THz) freq...
This thesis covers contributions to the field of electromagnetic metamaterials, a broad, dynamic are...
Reconfigurable plasmonics constitutes an exciting and challenging new horizon in nanophotonics. This...
We report the discovery of a highly nonlinear material structure that supports surface plasmon-polar...
In this work we use nonlinear optical properties of Ga nanoparticles monolayers of different average...
We have developed a concept for active plasmonics that exploits nanoscale structural transformations...
The phase-change technology behind rewritable optical disks and the latest generation of electronic ...
Abstract. In this work we use nonlinear optical properties of Ga nanoparticles monolayers of differe...
We show that the phase-change technology behind rewritable optical disks and the latest generation o...
Reconfigurable plasmonics is driving an extensive quest for active materials that can support a cont...
International audienceSilver and gallium form an alloy Ag2Ga via a room temperature spontaneous self...