Add to ORKGWe demonstrate femtosecond-laser-induced raster writing and erasing of dielectric metamaterial patterns using the phase-change mechanism in chalcogenide films. The technology is demonstrated by creating dynamically refocusable and chromatically correctable lenses and diffraction gratings
For the first time, we demonstrate a non-volatile bi-directional all-optical switching in a phase-ch...
We harness non-volatile, amorphous-crystalline transitions in the chalcogenide phase-change medium g...
Chalcogenide semiconductor alloys offer a uniquely functional and compositionally-controllable mater...
In this work we combine the concepts of low-loss dielectric metamaterials, phase-change media and fe...
Chalcogenide phase-change media provide a uniquely flexible platform for both nanostructured and opt...
Photonic components with adjustable parameters, such as variable-focal-length lenses or spectral fil...
A key recent advance in nanophotonics field has been the emergence of tunable, switchable and reconf...
A key recent advance in nanophotonics field has been the emergence of tunable, switchable and reconf...
Non-volatile, bi-directional, all-optical switching in a phase-change metamaterial delivers high-con...
Switchable and nonlinear metamaterials, with properties surpassing those of natural media, will unde...
Chalcogenide phase-change media offer a uniquely functional and compositionally-controllable materia...
Non-volatile, bi-directional, all-optical switching in a phase-change metamaterial delivers high-con...
We harness non-volatile, amorphous-crystalline transitions in the chalcogenide phase-change medium g...
Chalcogenide semiconductors offer a unique compositionally-controllable material base for reconfigur...
We harness non-volatile, amorphous-crystalline transitions in the chalcogenide phase-change medium g...
For the first time, we demonstrate a non-volatile bi-directional all-optical switching in a phase-ch...
We harness non-volatile, amorphous-crystalline transitions in the chalcogenide phase-change medium g...
Chalcogenide semiconductor alloys offer a uniquely functional and compositionally-controllable mater...
In this work we combine the concepts of low-loss dielectric metamaterials, phase-change media and fe...
Chalcogenide phase-change media provide a uniquely flexible platform for both nanostructured and opt...
Photonic components with adjustable parameters, such as variable-focal-length lenses or spectral fil...
A key recent advance in nanophotonics field has been the emergence of tunable, switchable and reconf...
A key recent advance in nanophotonics field has been the emergence of tunable, switchable and reconf...
Non-volatile, bi-directional, all-optical switching in a phase-change metamaterial delivers high-con...
Switchable and nonlinear metamaterials, with properties surpassing those of natural media, will unde...
Chalcogenide phase-change media offer a uniquely functional and compositionally-controllable materia...
Non-volatile, bi-directional, all-optical switching in a phase-change metamaterial delivers high-con...
We harness non-volatile, amorphous-crystalline transitions in the chalcogenide phase-change medium g...
Chalcogenide semiconductors offer a unique compositionally-controllable material base for reconfigur...
We harness non-volatile, amorphous-crystalline transitions in the chalcogenide phase-change medium g...
For the first time, we demonstrate a non-volatile bi-directional all-optical switching in a phase-ch...
We harness non-volatile, amorphous-crystalline transitions in the chalcogenide phase-change medium g...
Chalcogenide semiconductor alloys offer a uniquely functional and compositionally-controllable mater...