Add to ORKGOver the past few decades, semiconductor lasers have relentlessly followed the path towards miniaturization. Smaller lasers are more energy efficient, are cheaper to make, and open up new applications in sensing and displays, among many other things. Yet, up until recently, there was a fundamental problem with making lasers smaller: purely semiconductor lasers couldn't be made smaller than the diffraction limit of light. In recent years, however, metal-based lasers have been demonstrated in the nanoscale that have shattered the diffraction limit. As optical materials, metals can be used to either reflect light (metal-optics) or convert light to electrical currents (plasmonics). In both cases, metals have provided ways to squeeze light beyon...
Metallic structures have opened up many new possibilities for creating nano-lasers, smaller, faster ...
Metallic structures have opened up many new possibilities for creating nano-lasers, smaller, faster ...
Metallic structures have opened up many new possibilities for creating nano-lasers, smaller, faster ...
Semiconductor nanolasers represent the current frontier of research in the confluencing area of nano...
A remarkable miniaturization of lasers has occurred in just the past few years by employing metals t...
A remarkable miniaturization of lasers has occurred in just the past few years by employing metals t...
A remarkable miniaturization of lasers has occurred in just the past few years by employing metals t...
Laser science has tackled physical limitations to achieve higher power, faster and smaller light sou...
A remarkable miniaturization of lasers has occurred in just the past few years by employing metals t...
A remarkable miniaturization of lasers has occurred in just the past few years by employing metals t...
There has been a growing interest in the field of optoelectronics for sub-wavelength lasers due to a...
Laser science has been successful in producing increasingly high-powered, faster and smaller coheren...
Recent progress in the field of semiconductor nanolasers is discussed. New designs have emerged that...
Abstract. The laser is a prototypical non-equilibrium and self-organizing system that led to the bir...
There has been a growing interest in the field of optoelectronics for sub-wavelength lasers due to a...
Metallic structures have opened up many new possibilities for creating nano-lasers, smaller, faster ...
Metallic structures have opened up many new possibilities for creating nano-lasers, smaller, faster ...
Metallic structures have opened up many new possibilities for creating nano-lasers, smaller, faster ...
Semiconductor nanolasers represent the current frontier of research in the confluencing area of nano...
A remarkable miniaturization of lasers has occurred in just the past few years by employing metals t...
A remarkable miniaturization of lasers has occurred in just the past few years by employing metals t...
A remarkable miniaturization of lasers has occurred in just the past few years by employing metals t...
Laser science has tackled physical limitations to achieve higher power, faster and smaller light sou...
A remarkable miniaturization of lasers has occurred in just the past few years by employing metals t...
A remarkable miniaturization of lasers has occurred in just the past few years by employing metals t...
There has been a growing interest in the field of optoelectronics for sub-wavelength lasers due to a...
Laser science has been successful in producing increasingly high-powered, faster and smaller coheren...
Recent progress in the field of semiconductor nanolasers is discussed. New designs have emerged that...
Abstract. The laser is a prototypical non-equilibrium and self-organizing system that led to the bir...
There has been a growing interest in the field of optoelectronics for sub-wavelength lasers due to a...
Metallic structures have opened up many new possibilities for creating nano-lasers, smaller, faster ...
Metallic structures have opened up many new possibilities for creating nano-lasers, smaller, faster ...
Metallic structures have opened up many new possibilities for creating nano-lasers, smaller, faster ...