Add to ORKGLaser operation at 1060 nm with slope efficiency of 0.95% and 440 μW output power for 2% outcoupling was demonstrated in Nd-complex-doped FDA/epoxy channel waveguides, in what to our knowledge is the first report of a rare-earth-ion-doped polymer waveguide laser. The threshold was 45 mW of absorbed pump power
Nd3+-complex-doped polymer channel waveguide amplifiers with various lengths and Nd3+ concentrations...
Stable, continuous-wave laser emission near 1060 nm for a period of at least 2 h was demonstrated in...
Nd-complex-doped, polymer channel waveguides were realized on thermally oxidized silicon wafers by a...
Laser operation at 1060 nm with slope efficiency of 0.95% and 440 μW output power for 2% outcoupling...
Channel waveguides based on a polymer, 6-fluorinated-dianhydride/epoxy, which is actively doped with...
Continuous-wave laser operation at 1060.2 nm was demonstrated in polymer channel waveguides doped wi...
Abstract: Neodymium-doped waveguide Lasers and amplifiers are of interest for applications at +ve io...
Optical amplification at 1060 nm was demonstrated in Nd(TTA)3phen-doped 6-FDA/epoxy channel waveguid...
In Nd-complex-doped fluorinated polymer channel waveguides, internal net gain of 2.0 dB/cm at 873 nm...
Rare-earth-ion-doped polymer waveguide amplifiers [1-2] have been studied due to their potential use...
Polymer waveguides have emerged as a viable technology for integrated optical devices due to their l...
Channel waveguides based on a polymer, 6- fluorinated-dianhydride/epoxy, which is actively doped wit...
Polymer-based, 6-FDA/epoxy channel waveguides doped with a Nd complex, $Nd(TTA)_3phen$, are fabricat...
Channel waveguides based on a polymer, 6-fluorinated-dianhydride/epoxy, which is actively doped with...
Abstract: In this thesis neodymium-doped polymer and amorphous aluminum oxide waveguide amplifiers a...
Nd3+-complex-doped polymer channel waveguide amplifiers with various lengths and Nd3+ concentrations...
Stable, continuous-wave laser emission near 1060 nm for a period of at least 2 h was demonstrated in...
Nd-complex-doped, polymer channel waveguides were realized on thermally oxidized silicon wafers by a...
Laser operation at 1060 nm with slope efficiency of 0.95% and 440 μW output power for 2% outcoupling...
Channel waveguides based on a polymer, 6-fluorinated-dianhydride/epoxy, which is actively doped with...
Continuous-wave laser operation at 1060.2 nm was demonstrated in polymer channel waveguides doped wi...
Abstract: Neodymium-doped waveguide Lasers and amplifiers are of interest for applications at +ve io...
Optical amplification at 1060 nm was demonstrated in Nd(TTA)3phen-doped 6-FDA/epoxy channel waveguid...
In Nd-complex-doped fluorinated polymer channel waveguides, internal net gain of 2.0 dB/cm at 873 nm...
Rare-earth-ion-doped polymer waveguide amplifiers [1-2] have been studied due to their potential use...
Polymer waveguides have emerged as a viable technology for integrated optical devices due to their l...
Channel waveguides based on a polymer, 6- fluorinated-dianhydride/epoxy, which is actively doped wit...
Polymer-based, 6-FDA/epoxy channel waveguides doped with a Nd complex, $Nd(TTA)_3phen$, are fabricat...
Channel waveguides based on a polymer, 6-fluorinated-dianhydride/epoxy, which is actively doped with...
Abstract: In this thesis neodymium-doped polymer and amorphous aluminum oxide waveguide amplifiers a...
Nd3+-complex-doped polymer channel waveguide amplifiers with various lengths and Nd3+ concentrations...
Stable, continuous-wave laser emission near 1060 nm for a period of at least 2 h was demonstrated in...
Nd-complex-doped, polymer channel waveguides were realized on thermally oxidized silicon wafers by a...