Add to ORKGThe optical properties of rare-earth-ion (RE) doped $KY{(WO_4)}_2$ $(KYW)$ 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...
Waveguide lasing is achieved in crystalline Gd3+, Lu3+ co-doped KY(WO4)2:Yb3+ (KYW) thin layers grow...
The optical properties of rare-earth-ion (RE) doped KY(WO4)2 (KYW) form an excellent basis for the r...
It has been recognized that the monoclinic double tungstates KY(WO4)2, KGd(WO4)2, and KLu(WO4)2 poss...
The rare-earth (RE) ion doped monoclinic potassium double tungstates KY(WO4)2, KGd(WO4)2, and KLu(WO...
Channel waveguide structures are the building blocks of future integrated optics devices. In order t...
Rare-earth ion-doped potassium yttrium double tungstate, RE:KY(WO4)2, is a promising candidate for s...
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. ...
Codoping $KY{(WO_4)}_2$:Yb layers with optically inert Lu and Gd ions allows a large increase of the...
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...
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...
Waveguide lasing is achieved in crystalline Gd3+, Lu3+ co-doped KY(WO4)2:Yb3+ (KYW) thin layers grow...
The optical properties of rare-earth-ion (RE) doped KY(WO4)2 (KYW) form an excellent basis for the r...
It has been recognized that the monoclinic double tungstates KY(WO4)2, KGd(WO4)2, and KLu(WO4)2 poss...
The rare-earth (RE) ion doped monoclinic potassium double tungstates KY(WO4)2, KGd(WO4)2, and KLu(WO...
Channel waveguide structures are the building blocks of future integrated optics devices. In order t...
Rare-earth ion-doped potassium yttrium double tungstate, RE:KY(WO4)2, is a promising candidate for s...
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. ...
Codoping $KY{(WO_4)}_2$:Yb layers with optically inert Lu and Gd ions allows a large increase of the...
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...
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...
Waveguide lasing is achieved in crystalline Gd3+, Lu3+ co-doped KY(WO4)2:Yb3+ (KYW) thin layers grow...