2008
DOI: 10.2478/s11772-007-0035-3
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Structure optimisation of short-wavelength ridge-waveguide InGaN/GaN diode lasers

Abstract: Room-temperature (RT) continuous-wave (CW) operation of the 405-nm ridge-waveguide (RW) InGaN/GaN quantum-well diode lasers equipped with the n-type GaN substrate and two contacts on both sides of the structure has been investigated with the aid of the comprehensive self-consistent simulation model. As expected, the mounting configuration (p-side up or down) has been found to have a crucial impact on the diode laser performance. For the RT CW threshold operation of the otherwise identical diode laser, the p-si… Show more

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Cited by 4 publications
(2 citation statements)
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“…Group-III nitride semiconductors exhibit superior properties, such as a wide energy bandgap, large thermal conductivity, high carrier mobility, small dielectric constant, strong anti-radiation ability, and good chemical stability 13 17 . Due to these superior properties, III-nitride semiconductors can be applied in extreme environments 18 , solid-state lighting and displays 19 , short-wavelength lasers 20 – 22 , and optical detection 23 26 . III-nitride semiconductors primarily include GaN, AlN, and InN along with their ternary and quaternary alloys AlGaN, InGaN, and AlGaInN 27 32 .…”
Section: Introductionmentioning
confidence: 99%
“…Group-III nitride semiconductors exhibit superior properties, such as a wide energy bandgap, large thermal conductivity, high carrier mobility, small dielectric constant, strong anti-radiation ability, and good chemical stability 13 17 . Due to these superior properties, III-nitride semiconductors can be applied in extreme environments 18 , solid-state lighting and displays 19 , short-wavelength lasers 20 – 22 , and optical detection 23 26 . III-nitride semiconductors primarily include GaN, AlN, and InN along with their ternary and quaternary alloys AlGaN, InGaN, and AlGaInN 27 32 .…”
Section: Introductionmentioning
confidence: 99%
“…Optical in− terconnection will be one major method to upgrade intercon− nect performance due to their advantageous high−speed data transfer capability in a small form factor with low crosstalk at high density. PhC VCSELs are promising light sources for optical interconnections due to very low power consumption [1][2][3] and strong discrimination of higher order modes which contributes to high−speed operation [4][5][6][7]. Furthermore, PhC VCSELs allow for high−density two−dimensional array, low crosstalk, and low production costs.…”
Section: Introductionmentioning
confidence: 99%