Add to ORKGReduction of Brownian thermal noise due to mechanical loss in high-reflectivity mirror coatings is critical for improving the sensitivity of future gravitational wave detectors. In these mirrors, the mechanical loss at room temperature is dominated by the high refractive index component, amorphous tantala (Ta₂O₅) or tantala doped with titania (Ti∶Ta₂O₅). Toward the goal of identifying mechanisms that could alter mechanical loss, this work investigates the use of assist ion bombardment in the reactive ion beam sputtering deposition of tantala single layers. Low-energy assist ion bombardment can enhance adatom diffusion. Low-energy assist Ar⁺ and Xe⁺ ion bombardment at different conditions was implemented during deposition to identify trends ...
Brownian thermal noise associated with highly reflective mirror coatings is a fundamental limit for ...
Amorphous tantala (a-Ta2O5) is an important technological material that has wide ranging application...
High-reflection interference mirrors for current gravitational wave detectors (aLIGO, Advanced Virgo...
Reduction of Brownian thermal noise due to mechanical loss in high-reflectivity mirror coatings is c...
Brownian thermal noise in dielectric multilayer coatings limits the sensitivity of current and futur...
2021 Summer.Includes bibliographical references.Amorphous thin films prepared from vapor deposition ...
International audienceWe report on the development and extensive characterization of co-sputtered ta...
The noise caused by internal mechanical dissipation in the high refractive index amorphous thin fil...
Amorphous tantala (Ta₂O₅) thin films were deposited by reactive ion beam sputtering with simultaneou...
AbstractAmorphous tantala (a-Ta2O5) is an important technological material that has wide ranging app...
Amorphous tantala (a-Ta2O5) is an important technological material that has wide ranging application...
We report on the mechanical loss from bulk and shear stresses in thin film, ion beam deposited, tita...
We report on the development and extensive characterization of co-sputtered tantala-zirconia (Ta2O5-...
International audienceWe present the results of mechanical characterizations of many different high-...
The interferometer mirrors of Gravitational-Wave Detectors (GWD) are Bragg reflectors made of altern...
Brownian thermal noise associated with highly reflective mirror coatings is a fundamental limit for ...
Amorphous tantala (a-Ta2O5) is an important technological material that has wide ranging application...
High-reflection interference mirrors for current gravitational wave detectors (aLIGO, Advanced Virgo...
Reduction of Brownian thermal noise due to mechanical loss in high-reflectivity mirror coatings is c...
Brownian thermal noise in dielectric multilayer coatings limits the sensitivity of current and futur...
2021 Summer.Includes bibliographical references.Amorphous thin films prepared from vapor deposition ...
International audienceWe report on the development and extensive characterization of co-sputtered ta...
The noise caused by internal mechanical dissipation in the high refractive index amorphous thin fil...
Amorphous tantala (Ta₂O₅) thin films were deposited by reactive ion beam sputtering with simultaneou...
AbstractAmorphous tantala (a-Ta2O5) is an important technological material that has wide ranging app...
Amorphous tantala (a-Ta2O5) is an important technological material that has wide ranging application...
We report on the mechanical loss from bulk and shear stresses in thin film, ion beam deposited, tita...
We report on the development and extensive characterization of co-sputtered tantala-zirconia (Ta2O5-...
International audienceWe present the results of mechanical characterizations of many different high-...
The interferometer mirrors of Gravitational-Wave Detectors (GWD) are Bragg reflectors made of altern...
Brownian thermal noise associated with highly reflective mirror coatings is a fundamental limit for ...
Amorphous tantala (a-Ta2O5) is an important technological material that has wide ranging application...
High-reflection interference mirrors for current gravitational wave detectors (aLIGO, Advanced Virgo...