机译:Er3 +离子激活的SiO2-P2O5-HfO2-Al2O3-Na2O玻璃:从块状样品到通过射频溅射制备的平面波导
IFN CNR CSMFO Lab Via Cascata 56-C I-38123 Povo Trento Italy|FBK CMM Via Cascata 56-C I-38123 Povo Trento Italy;
IFN CNR CSMFO Lab Via Cascata 56-C I-38123 Povo Trento Italy|FBK CMM Via Cascata 56-C I-38123 Povo Trento Italy|Univ Trento Dipartimento Fis Via Sommarive 14 I-38123 Povo Trento Italy;
Bialystok Tech Univ Wiejska 45D St PL-15351 Bialystok Poland;
IFN CNR CSMFO Lab Via Cascata 56-C I-38123 Povo Trento Italy|FBK CMM Via Cascata 56-C I-38123 Povo Trento Italy|Politecn Milan Pzza Leonardo da Vinci 32 I-20133 Milan Italy;
FBK CMM MNF Via Sommarive 18 I-38123 Povo Trento Italy;
IFN CNR CSMFO Lab Via Cascata 56-C I-38123 Povo Trento Italy|FBK CMM Via Cascata 56-C I-38123 Povo Trento Italy|FBK CMM FMPS Unit Via Sommarive 18 I-38123 Povo Trento Italy;
FBK CMM ARES Unit Via Sommarive 18 I-38123 Povo Trento Italy;
IFN CNR CSMFO Lab Via Cascata 56-C I-38123 Povo Trento Italy|FBK CMM Via Cascata 56-C I-38123 Povo Trento Italy|Univ Trento Dipartimento Fis Via Sommarive 14 I-38123 Povo Trento Italy|Univ Hyderabad Sch Phys Hyderabad 500046 Andhra Prades India;
IFN CNR CSMFO Lab Via Cascata 56-C I-38123 Povo Trento Italy|FBK CMM Via Cascata 56-C I-38123 Povo Trento Italy|Ctr Studi & Ric Enrico Fermi Pzza Viminale 1 I-00184 Rome Italy;
PAS Inst Low Temp & Struct Res 2 Okolna St PL-50422 Wroclaw Poland;
Ctr Studi & Ric Enrico Fermi Pzza Viminale 1 I-00184 Rome Italy|IFAC CNR MiPlab Via Madonna del Piano 10 I-50019 Sesto Fiorentino Italy;
Planar waveguides; rf-sputtering; Hafnia; Silica; Phosphate; Erbium; Optical properties; Luminescence;
机译:Er3 +离子激活的SiO2-P2O5-HfO2-Al2O3-Na2O玻璃:从块状样品到通过射频溅射制备的平面波导
机译:射频溅射制备的用于光子学的Er3 + / Yb3 +激活的氧化硅-氧化f平面波导
机译:通过射频溅射制备用于EDPWA的Er3 + / Yb3 +活化的二氧化硅-二氧化钛平面波导
机译:ER3 + / YB3 +活性二氧化硅-HAFNIA平面波导,用于通过RF溅射制造的光子
机译:具有耦合器的平面波导太阳能聚光器,该耦合器由激光诱导的背面湿法刻蚀制成。
机译:在原硅酸钇块状晶体和离子注入平面波导中可见到近红外超连续谱
机译:射频溅射制备GeO2平面波导的CO2激光辐照
机译:眼镜中的Ce exp +3 - 和Tb exp +3-发光。 Ce exp +3 -activated Bulk silica和silica Thin Films。基于Ce exp +3激活的二氧化硅薄膜的α-粒子检测器。 Ce exp +3 -Tb exp +3-能量转移