Litcius/Paper detail

Enhanced medium-range order in vapor-deposited germania glasses at elevated temperatures

Le Yang, Gabriele Vajente, Mariana Fazio, Alena Ananyeva, GariLynn Billingsley, Ashot Markosyan, Riccardo Bassiri, Kiran Prasai, Martin M. Fejer, Martin Chicoine, François Schiettekatte, Carmen S. Menoni

2021Science Advances30 citationsDOIOpen Access PDF

Abstract

rings increases at elevated substrate temperatures. Deposition near the glass transition temperature is more efficient than postgrowth annealing in modifying atomic structure at medium range. The enhanced medium-range organization correlates with reduction of the room temperature internal friction. Identifying the microscopic origin of room temperature internal friction in amorphous oxides is paramount to design the next-generation interference coatings for mirrors of the end test masses of gravitational wave interferometers, in which the room temperature internal friction is a main source of noise limiting their sensitivity.

Topics & Concepts

Materials scienceAmorphous solidLimitingDeposition (geology)Annealing (glass)Glass transitionChemical vapor depositionSubstrate (aquarium)Raman spectroscopyComposite materialAtmospheric temperature rangeNon-equilibrium thermodynamicsPopulationPhysical vapor depositionChemical physicsThin filmMineralogyInterference (communication)Molecular physicsInternal frictionRange (aeronautics)Temperature coefficientChemical engineeringOptoelectronicsOpticsGlass properties and applicationsPhase-change materials and chalcogenidesMaterial Dynamics and Properties