Add to ORKGThe authors describe the performance of submicron microdisk lasers fabricated within InGaP/InGaAlP quantum well material working at room temperature. The smallest lasers, with diameters of approximately 600 nm, feature ultrasmall mode volumes and exhibit single mode operation at low threshold powers. Their small cavity volumes of approximately 0.03 µm^3 enable microdisk lasers to be used as spectroscopic sources. Here the authors demonstrate the fabrication and characterization of visible, monolithically fabricated, submicron microdisk lasers
The quality factor (Q), mode volume (Veff), and room-temperature lasing threshold of microdisk cavit...
InGaN-based active layers within microcavity resonators offer the potential of low threshold lasers ...
InGaN-based active layers within microcavity resonators offer the potential of low threshold lasers ...
We describe the performance of submicron microdisk and photonic crystal lasers fabricated within InG...
We report on the fabrication and characterization of microdisk lasers emitting at around 650 nm. The...
The authors describe the fabrication and performance of photonic crystal lasers fabricated within th...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/98662/1/ApplPhysLett_98_131109.pd
Visible 2-dimentional photonic crystal lasers were fabricated within membranes of InGaP/InGaAlP quan...
Visible 2-dimensional photonic crystal lasers were fabricated within membranes of InGaP/InGaAlP quan...
The authors report on the achievement of optically pumped III-V nitride blue microdisk lasers operat...
Nanolasers have great potential as both on-chip light sources and optical barcoding particles. We de...
We report on microdisk lasers based on GaInNAs(Sb)/GaAs(N) quantum well active region. Their charact...
Abstract—We have calculated lasing characteristics of current injection microdisk lasers of several ...
An optically pumped multi-color laser has been achieved using an InGaN/GaN based micro-disk with an ...
International audienceThe development of semiconductor lasers in the deep ultra-violet (UV) spectral...
The quality factor (Q), mode volume (Veff), and room-temperature lasing threshold of microdisk cavit...
InGaN-based active layers within microcavity resonators offer the potential of low threshold lasers ...
InGaN-based active layers within microcavity resonators offer the potential of low threshold lasers ...
We describe the performance of submicron microdisk and photonic crystal lasers fabricated within InG...
We report on the fabrication and characterization of microdisk lasers emitting at around 650 nm. The...
The authors describe the fabrication and performance of photonic crystal lasers fabricated within th...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/98662/1/ApplPhysLett_98_131109.pd
Visible 2-dimentional photonic crystal lasers were fabricated within membranes of InGaP/InGaAlP quan...
Visible 2-dimensional photonic crystal lasers were fabricated within membranes of InGaP/InGaAlP quan...
The authors report on the achievement of optically pumped III-V nitride blue microdisk lasers operat...
Nanolasers have great potential as both on-chip light sources and optical barcoding particles. We de...
We report on microdisk lasers based on GaInNAs(Sb)/GaAs(N) quantum well active region. Their charact...
Abstract—We have calculated lasing characteristics of current injection microdisk lasers of several ...
An optically pumped multi-color laser has been achieved using an InGaN/GaN based micro-disk with an ...
International audienceThe development of semiconductor lasers in the deep ultra-violet (UV) spectral...
The quality factor (Q), mode volume (Veff), and room-temperature lasing threshold of microdisk cavit...
InGaN-based active layers within microcavity resonators offer the potential of low threshold lasers ...
InGaN-based active layers within microcavity resonators offer the potential of low threshold lasers ...