Thermal noise in amorphous coatings is a limitation for a wide range of precision experiments such as gravitational-wave detectors (GWDs). Mirrors for GWDs are composed of multiple thin layers of dielec-tric materials deposited on a substrate: the stack is made of layers with a high-refractive index interleaved with layers of a low-refractive index. The goal is to obtain high reflectivity and low thermal noise. In this paper we report on the optical and mechanical properties of ion-beam-sputtered aluminium fluoride (AlF3) thin films that have one of the lowest refractive indexes among the known coating materials and we discuss their application in current and future GWDs.
Characterization of Ion-Beam-Sputtered AlF3 Thin Films for Gravitational-Wave Interferometers
Bazzan, MSupervision
;Maggioni, G;
2022
Abstract
Thermal noise in amorphous coatings is a limitation for a wide range of precision experiments such as gravitational-wave detectors (GWDs). Mirrors for GWDs are composed of multiple thin layers of dielec-tric materials deposited on a substrate: the stack is made of layers with a high-refractive index interleaved with layers of a low-refractive index. The goal is to obtain high reflectivity and low thermal noise. In this paper we report on the optical and mechanical properties of ion-beam-sputtered aluminium fluoride (AlF3) thin films that have one of the lowest refractive indexes among the known coating materials and we discuss their application in current and future GWDs.Pubblicazioni consigliate
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