We report a plasmonic laser device exhibiting strong sub-wavelength confinement. These nanowire-based plasmonic lasers are not subjected to diffraction limitations, hence can operate below the photonic mode cut-off diameter of purely dielectric nanowire lasers. ? 2009 Optical Society of America.EI
Recent progress in the field of semiconductor nanolasers is discussed. New designs have emerged that...
A high Q-factor of the nanocavity can effectively reduce the threshold of nanolasers. In this paper,...
International audienceWe review principles and trends in the use of semiconductor nanowires as gain ...
Laser science has been successful in producing increasingly high-powered, faster and smaller coheren...
Laser science has tackled physical limitations to achieve higher power, faster and smaller light sou...
Metallic and plasmonic nanolasers have attracted growing interest recently. Plasmonic lasers demonst...
A remarkable miniaturization of lasers has occurred in just the past few years by employing metals t...
Semiconductor nanolasers represent the current frontier of research in the confluencing area of nano...
Over the past few decades, semiconductor lasers have relentlessly followed the path towards miniatur...
a b s t r a c t Novel plasmonic nanolaser structures are proposed by leveraging the efficient guidin...
Plasmonic nanolasers have ultrahigh lasing thresholds, especially those devices for which all three ...
Semiconductor nanowires (NW) hold great promise for micro/nanolasers owing to their naturally formed...
Multicolor plasmonic nanowire lasers enable below diffraction-limit directional optical waveguiding ...
Photonic devices are becoming more and more miniaturized and highly integrated with the advancement ...
Abstract. The laser is a prototypical non-equilibrium and self-organizing system that led to the bir...
Recent progress in the field of semiconductor nanolasers is discussed. New designs have emerged that...
A high Q-factor of the nanocavity can effectively reduce the threshold of nanolasers. In this paper,...
International audienceWe review principles and trends in the use of semiconductor nanowires as gain ...
Laser science has been successful in producing increasingly high-powered, faster and smaller coheren...
Laser science has tackled physical limitations to achieve higher power, faster and smaller light sou...
Metallic and plasmonic nanolasers have attracted growing interest recently. Plasmonic lasers demonst...
A remarkable miniaturization of lasers has occurred in just the past few years by employing metals t...
Semiconductor nanolasers represent the current frontier of research in the confluencing area of nano...
Over the past few decades, semiconductor lasers have relentlessly followed the path towards miniatur...
a b s t r a c t Novel plasmonic nanolaser structures are proposed by leveraging the efficient guidin...
Plasmonic nanolasers have ultrahigh lasing thresholds, especially those devices for which all three ...
Semiconductor nanowires (NW) hold great promise for micro/nanolasers owing to their naturally formed...
Multicolor plasmonic nanowire lasers enable below diffraction-limit directional optical waveguiding ...
Photonic devices are becoming more and more miniaturized and highly integrated with the advancement ...
Abstract. The laser is a prototypical non-equilibrium and self-organizing system that led to the bir...
Recent progress in the field of semiconductor nanolasers is discussed. New designs have emerged that...
A high Q-factor of the nanocavity can effectively reduce the threshold of nanolasers. In this paper,...
International audienceWe review principles and trends in the use of semiconductor nanowires as gain ...
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