We report that the phase state of bistable gallium nanoparticles, controlled by optical or electron beam excitations, can be identified via measurements of their cathodoluminescent emission, thus offering an innovative conceptual basis for the development of high density nonvolatile phase-change memories. Changes of up to 20% in visible emission intensity are observed following low-fluence optical or electron beam induced phase switching in a monolayer of 60 nm particles
Phase-change functionality in gallium nanoparticles offers an innovative conceptual basis for the de...
Phase-change functionality in gallium nanoparticles offers an innovative conceptual basis for the de...
Phase-change functionality in gallium nanoparticles offers an innovative conceptual basis for the de...
We report that the structural phase of gallium nanoparticles can be switched by optical excitation a...
We report on a method of phase identification of gallium nanoparticles via their cathodoluminescence...
Nanoscale resolution cathodoluminescence (CL) has been used to demonstrate and investigate the funct...
We report here on gallium nanoparticle phase change memory functionality, demonstrating that data ca...
The scanning electron microscope (SEM) provides an excellent environment for nanophotonics research,...
In this article we review the concept of electron-beam-addressed high density phase-change nanoparti...
Nanoscale photonic functionalities based on light-induced structural transitions in nanoparticles ha...
The authors demonstrate that transitions from high temperature phases to low temperature phases in a...
For the first time we demonstrate that information can be written in the structural phase of gallium...
We have observed reversible structural transformations, induced by optical excitation at 1.55 microm...
We discovered that a low-power laser light can dramatically influence and regulate nanoparticles sel...
Phase-change functionality in gallium nanoparticles offers an innovative conceptual basis for the de...
Phase-change functionality in gallium nanoparticles offers an innovative conceptual basis for the de...
Phase-change functionality in gallium nanoparticles offers an innovative conceptual basis for the de...
Phase-change functionality in gallium nanoparticles offers an innovative conceptual basis for the de...
We report that the structural phase of gallium nanoparticles can be switched by optical excitation a...
We report on a method of phase identification of gallium nanoparticles via their cathodoluminescence...
Nanoscale resolution cathodoluminescence (CL) has been used to demonstrate and investigate the funct...
We report here on gallium nanoparticle phase change memory functionality, demonstrating that data ca...
The scanning electron microscope (SEM) provides an excellent environment for nanophotonics research,...
In this article we review the concept of electron-beam-addressed high density phase-change nanoparti...
Nanoscale photonic functionalities based on light-induced structural transitions in nanoparticles ha...
The authors demonstrate that transitions from high temperature phases to low temperature phases in a...
For the first time we demonstrate that information can be written in the structural phase of gallium...
We have observed reversible structural transformations, induced by optical excitation at 1.55 microm...
We discovered that a low-power laser light can dramatically influence and regulate nanoparticles sel...
Phase-change functionality in gallium nanoparticles offers an innovative conceptual basis for the de...
Phase-change functionality in gallium nanoparticles offers an innovative conceptual basis for the de...
Phase-change functionality in gallium nanoparticles offers an innovative conceptual basis for the de...
Phase-change functionality in gallium nanoparticles offers an innovative conceptual basis for the de...