Add to ORKGWe have fabricated photonic crystal nanocavity lasers, based on a high-quality factor design that incorporates fractional edge dislocations. Lasers with InGaAsP quantum well active material emitting at 1550 nm were optically pumped with 10 ns pulses, and lased at threshold pumping powers below 220 µW, the lowest reported for quantum-well based photonic crystal lasers, to our knowledge. Polarization characteristics and lithographic tuning properties were found to be in excellent agreement with theoretical predictions
Nano-emitters are the new generation of laser devices. A photonic-crystal cavity, which highly confi...
We combine photonic and electronic band structure engineering to create a surface-emitting quantum c...
Planar photonic crystals are constructed by combining two-dimensional periodic structures with high ...
We have fabricated photonic crystal nanocavity lasers, based on a high-quality factor design that in...
We have recently developed photonic crystal nanocavities and lasers from both InGaAsP quantum well a...
By creating different types of defects in the photonic crystal lattice, various nanophotonics compon...
We have realized photonic crystal lasers that permit the introduction of analyte within the peak of ...
We observed modulated oscillations in lasers of up to 130 GHz by conducting frequency domain measure...
Near-field scanning optical microscopy was used to observe high-resolution images of confined modes ...
We have fabricated and characterized donor-mode nanocavities formed by a single defect cavity define...
We have investigated the miniaturization of photonic devices for ultimate photon localization, and h...
The directed growth of III–V nanopillars is used to demonstrate bottom-up photonic crystal lasers. S...
We propose and analyze a new photonic crystal cavity design that supports a dipole mode with a quali...
The authors describe the fabrication and performance of photonic crystal lasers fabricated within th...
Visible 2-dimensional photonic crystal lasers were fabricated within membranes of InGaP/InGaAlP quan...
Nano-emitters are the new generation of laser devices. A photonic-crystal cavity, which highly confi...
We combine photonic and electronic band structure engineering to create a surface-emitting quantum c...
Planar photonic crystals are constructed by combining two-dimensional periodic structures with high ...
We have fabricated photonic crystal nanocavity lasers, based on a high-quality factor design that in...
We have recently developed photonic crystal nanocavities and lasers from both InGaAsP quantum well a...
By creating different types of defects in the photonic crystal lattice, various nanophotonics compon...
We have realized photonic crystal lasers that permit the introduction of analyte within the peak of ...
We observed modulated oscillations in lasers of up to 130 GHz by conducting frequency domain measure...
Near-field scanning optical microscopy was used to observe high-resolution images of confined modes ...
We have fabricated and characterized donor-mode nanocavities formed by a single defect cavity define...
We have investigated the miniaturization of photonic devices for ultimate photon localization, and h...
The directed growth of III–V nanopillars is used to demonstrate bottom-up photonic crystal lasers. S...
We propose and analyze a new photonic crystal cavity design that supports a dipole mode with a quali...
The authors describe the fabrication and performance of photonic crystal lasers fabricated within th...
Visible 2-dimensional photonic crystal lasers were fabricated within membranes of InGaP/InGaAlP quan...
Nano-emitters are the new generation of laser devices. A photonic-crystal cavity, which highly confi...
We combine photonic and electronic band structure engineering to create a surface-emitting quantum c...
Planar photonic crystals are constructed by combining two-dimensional periodic structures with high ...