Add to ORKGThe optical properties of rare-earth-ion (RE) doped KY(WO4)2 (KYW) form an excellent basis for the realization of optically active devices such as lasers and amplifiers. External-cavity laser experiments on KYW:Yb planar waveguides confirmed these predictions by high slope efficiencies up to 80%. In-house equipment enables the epitaxial growth of KYW:RE layers and their optical characterization. Combined with micro-structuring of KYW:RE layers using novel reactive-ion-etching methods (to an etch depth of ~390 nm) and use of simulation software (Field Designer), this will lead to novel on-chip integrated lasers and amplifiers and a profound understanding of the physics and optimization of these devices
Epitaxially grown, 2.4-µm-thin layers of KY(WO4)2:Gd3+, Lu3+, Yb3+, which exhibit a high refractive ...
Several fields, including optical communications, bio-sensing, health, and safety, will greatly bene...
High-quality crystalline KY(WO4)2:Yb3+ layers co-doped with large concentrations of optically inert ...
The optical properties of rare-earth-ion (RE) doped $KY{(WO_4)}_2$ $(KYW)$ form an excellent basis f...
The rare-earth (RE) ion doped monoclinic potassium double tungstates KY(WO4)2, KGd(WO4)2, and KLu(WO...
It has been recognized that the monoclinic double tungstates KY(WO4)2, KGd(WO4)2, and KLu(WO4)2 poss...
Rare-earth ion-doped potassium yttrium double tungstate, RE:KY(WO4)2, is a promising candidate for s...
Channel waveguide structures are the building blocks of future integrated optics devices. In order t...
Rare-earth ion doped KY(WO4)2 amplifiers are proposed to be a good candidate for many future applica...
In this work the technology of Gd3+ and Lu3+ co-doped KY(WO4)2:Yb3+ thin films grown onto pure KY(WO...
High-quality KY(WO4)2 thin layers doped with rare-earth-ions were grown using liquid-phase epitaxy. ...
The potassium double tungstates KY(WO4)2, KGd(WO4)2, and KLu(WO4)2, are excellent host materials for...
The potassium double tungstates KGd(WO4)2, KY(WO4)2, and KLu(WO4)2 are excellent candidates for soli...
Codoping $KY{(WO_4)}_2$:Yb layers with optically inert Lu and Gd ions allows a large increase of the...
Epitaxial growth of rare-earth-ion-activated KY(1-x-y)Gd(x)Lu(y)(WO4)2 co-doped thin layers onto KY(...
Epitaxially grown, 2.4-µm-thin layers of KY(WO4)2:Gd3+, Lu3+, Yb3+, which exhibit a high refractive ...
Several fields, including optical communications, bio-sensing, health, and safety, will greatly bene...
High-quality crystalline KY(WO4)2:Yb3+ layers co-doped with large concentrations of optically inert ...
The optical properties of rare-earth-ion (RE) doped $KY{(WO_4)}_2$ $(KYW)$ form an excellent basis f...
The rare-earth (RE) ion doped monoclinic potassium double tungstates KY(WO4)2, KGd(WO4)2, and KLu(WO...
It has been recognized that the monoclinic double tungstates KY(WO4)2, KGd(WO4)2, and KLu(WO4)2 poss...
Rare-earth ion-doped potassium yttrium double tungstate, RE:KY(WO4)2, is a promising candidate for s...
Channel waveguide structures are the building blocks of future integrated optics devices. In order t...
Rare-earth ion doped KY(WO4)2 amplifiers are proposed to be a good candidate for many future applica...
In this work the technology of Gd3+ and Lu3+ co-doped KY(WO4)2:Yb3+ thin films grown onto pure KY(WO...
High-quality KY(WO4)2 thin layers doped with rare-earth-ions were grown using liquid-phase epitaxy. ...
The potassium double tungstates KY(WO4)2, KGd(WO4)2, and KLu(WO4)2, are excellent host materials for...
The potassium double tungstates KGd(WO4)2, KY(WO4)2, and KLu(WO4)2 are excellent candidates for soli...
Codoping $KY{(WO_4)}_2$:Yb layers with optically inert Lu and Gd ions allows a large increase of the...
Epitaxial growth of rare-earth-ion-activated KY(1-x-y)Gd(x)Lu(y)(WO4)2 co-doped thin layers onto KY(...
Epitaxially grown, 2.4-µm-thin layers of KY(WO4)2:Gd3+, Lu3+, Yb3+, which exhibit a high refractive ...
Several fields, including optical communications, bio-sensing, health, and safety, will greatly bene...
High-quality crystalline KY(WO4)2:Yb3+ layers co-doped with large concentrations of optically inert ...