The Development of High Reflection TiO2:GeO2 and SiO2 Coatings for Gravitational Wave Detectors

Aaron Davenport; Gabriele Vajente; Nicholas Demos; Le Yang; Alena Ananyeva; GariLynn Billingsley; François Schiettekatte; Martin Chicoine; Ashot Markosyan; Riccardo Bassiri; Martin M. Fejer; Slawek Gras; Mathew Evans; Carmen S. Menoni

doi:10.1364/OIC.2022.WA.6

Optical Interference Coatings Conference (OIC) 2022
Technical Digest Series (Optica Publishing Group, 2022),
paper WA.6
•https://doi.org/10.1364/OIC.2022.WA.6

The Development of High Reflection TiO₂:GeO₂ and SiO₂ Coatings for Gravitational Wave Detectors

Aaron Davenport, Gabriele Vajente, Nicholas Demos, Le Yang, Alena Ananyeva, GariLynn Billingsley, François Schiettekatte, Martin Chicoine, Ashot Markosyan, Riccardo Bassiri, Martin M. Fejer, Slawek Gras, Mathew Evans, and Carmen S. Menoni

Optical Interference Coatings 2022

Whistler, British Columbia Canada
19–24 June 2022
ISBN: 978-1-957171-04-3

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Space and Imaging Applications; Coatings for Gravitational Wave Detectors I (WA)

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A. Davenport, G. Vajente, N. Demos, L. Yang, A. Ananyeva, G. Billingsley, F. Schiettekatte, M. Chicoine, A. Markosyan, R. Bassiri, M. M. Fejer, S. Gras, M. Evans, and C. S. Menoni, "The Development of High Reflection TiO2:GeO2 and SiO2 Coatings for Gravitational Wave Detectors," in Optical Interference Coatings Conference (OIC) 2022, R. Sargent and A. Sytchkova, eds., Technical Digest Series (Optica Publishing Group, 2022), paper WA.6.

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Abstract

Multilayer coatings with 99.998% reflectivity consisting of stacks of a TiO₂:GeO₂ alloy and SiO2 thin films with excellent optical properties are demonstrated. The effect of annealing the structural properties of the coatings is studied.

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