This paper presents the first optical and spectroscopic characterization of zirconium based fluoride planar waveguides ZE (ZrF4-ErF 3) and ZLE (ZrF4-LaF3-ErF3) that have been fabricated by Physical Vapor Deposition (PVD) in dual evaporation configuration [1]. Transparent thin films have been obtained by adjusting vaporization temperature, composition of the ZrF4-based glass and the LaF3-ErF3 batch. In order to improve resistance to moisture, a low refractive index (~1.32) KAlF4 cladding has also been deposited. Infrared spectrum of the waveguides has confirmed the protecting role of the cladding layer for the active layer regarding hydrolysis. Luminescence measurements on waveguide samples have shown promising properties compared with the bulk samples, indicating that this system may be suitable for ceramization like in bulk configuration [2-3].
Application of PVD technique to the fabrication of erbium doped ZrF4-based glass ceramic for optical amplification
Alessandro Chiasera;Maurizio Ferrari;
2006
Abstract
This paper presents the first optical and spectroscopic characterization of zirconium based fluoride planar waveguides ZE (ZrF4-ErF 3) and ZLE (ZrF4-LaF3-ErF3) that have been fabricated by Physical Vapor Deposition (PVD) in dual evaporation configuration [1]. Transparent thin films have been obtained by adjusting vaporization temperature, composition of the ZrF4-based glass and the LaF3-ErF3 batch. In order to improve resistance to moisture, a low refractive index (~1.32) KAlF4 cladding has also been deposited. Infrared spectrum of the waveguides has confirmed the protecting role of the cladding layer for the active layer regarding hydrolysis. Luminescence measurements on waveguide samples have shown promising properties compared with the bulk samples, indicating that this system may be suitable for ceramization like in bulk configuration [2-3].I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
