We present results on the design of GaAs and InP nanowire lasers. We will discuss the growth of high quantum efficiency, taper free photonic nanowires for laser applications and demonstrate room-temperature lasing from these nanowires
Summary form only given. In the last few years, semiconductor nanowires (NWs) have attracted intensi...
Design parameters for a single GaAs nanowire laser are determined by calculating the threshold gain ...
Chip-scale integrated light sources are a crucial component in a broad range of photonics applicatio...
International audienceWe review principles and trends in the use of semiconductor nanowires as gain ...
The development of small, power-efficient lasers underpins many of the technologies that we uti...
Semiconductor nanowires (or other wire-like nanostructures, including nano-ribbons and nanobelts) sy...
Near-infrared lasers are important for optical data communication, spectroscopy and medical diagnosi...
We present the design and room-temperature lasing characteristics of single nanowires containing coa...
We present the design and room-temperature lasing characteristics of single nanowires containing coa...
The discovery and continued development of the laser has revolutionized both science and industry. T...
The discovery and continued development of the laser has revolutionized both science and industry. T...
Semiconductor nanolasers represent the current frontier of research in the confluencing area of nano...
Near-infrared lasers are important for optical data communication, spectroscopy and medical diagnosi...
Near-infrared lasers are important for optical data communication, spectroscopy and medical diagnosi...
[[abstract]]Room-temperature ultraviolet lasing in semiconductor nanowire arrays has been demonstrat...
Summary form only given. In the last few years, semiconductor nanowires (NWs) have attracted intensi...
Design parameters for a single GaAs nanowire laser are determined by calculating the threshold gain ...
Chip-scale integrated light sources are a crucial component in a broad range of photonics applicatio...
International audienceWe review principles and trends in the use of semiconductor nanowires as gain ...
The development of small, power-efficient lasers underpins many of the technologies that we uti...
Semiconductor nanowires (or other wire-like nanostructures, including nano-ribbons and nanobelts) sy...
Near-infrared lasers are important for optical data communication, spectroscopy and medical diagnosi...
We present the design and room-temperature lasing characteristics of single nanowires containing coa...
We present the design and room-temperature lasing characteristics of single nanowires containing coa...
The discovery and continued development of the laser has revolutionized both science and industry. T...
The discovery and continued development of the laser has revolutionized both science and industry. T...
Semiconductor nanolasers represent the current frontier of research in the confluencing area of nano...
Near-infrared lasers are important for optical data communication, spectroscopy and medical diagnosi...
Near-infrared lasers are important for optical data communication, spectroscopy and medical diagnosi...
[[abstract]]Room-temperature ultraviolet lasing in semiconductor nanowire arrays has been demonstrat...
Summary form only given. In the last few years, semiconductor nanowires (NWs) have attracted intensi...
Design parameters for a single GaAs nanowire laser are determined by calculating the threshold gain ...
Chip-scale integrated light sources are a crucial component in a broad range of photonics applicatio...
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