Cryogenic mechanical loss measurements of heat-treated hafnium dioxide

MR Abernathy; S Reid; Eleanor Chalkley; R Bassiri; IW Martin; K Evans; MM Fejer; A Gretarsson; GM Harry; J Hough; I MacLaren; A Markosyan; P Murray; R Nawrodt; S Penn; R Route; S Rowan; P Seidel

doi:10.1088/0264-9381/28/19/195017

Cryogenic mechanical loss measurements of heat-treated hafnium dioxide

MR Abernathy, S Reid, Eleanor Chalkley, R Bassiri, IW Martin, K Evans, MM Fejer, A Gretarsson, GM Harry, J Hough, I MacLaren, A Markosyan, P Murray, R Nawrodt, S Penn, R Route, S Rowan, P Seidel

Physics and Astronomy

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17 Citations (Scopus)

Abstract

Low mechanical loss, high index-of-refraction thin-film coating materials are of particular interest to the gravitational wave detection community, where reduced mirror coating thermal noise in gravitational wave detectors is desirable. Current studies are focused on understanding the loss of amorphous metal oxides such as SiO2, Ta2O5 and HfO2. Here, we report recent measurements of the temperature dependence of the mechanical loss of ion-beam sputtered hafnium dioxide (HfO2) coatings that have undergone heat treatment. The results indicate that, even when partially crystallized, these coatings have lower loss than amorphous Ta2O5 films below similar to 100 K and that their loss exhibits some features which are heat-treatment dependent in the temperature range of similar to 100-200 K, with higher heat treatment yielding lower mechanical loss. The potential for using silica doping of hafnia coatings to prevent crystallization is discussed.

Original language	English
Pages (from-to)	195017
Number of pages	1
Journal	Classical and Quantum Gravity
Volume	28
Issue number	19
DOIs	https://doi.org/10.1088/0264-9381/28/19/195017
Publication status	Published - 1 Oct 2011

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Abernathy, MR., Reid, S., Chalkley, E., Bassiri, R., Martin, IW., Evans, K., Fejer, MM., Gretarsson, A., Harry, GM., Hough, J., MacLaren, I., Markosyan, A., Murray, P., Nawrodt, R., Penn, S., Route, R., Rowan, S., & Seidel, P. (2011). Cryogenic mechanical loss measurements of heat-treated hafnium dioxide. Classical and Quantum Gravity, 28(19), 195017. https://doi.org/10.1088/0264-9381/28/19/195017

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title = "Cryogenic mechanical loss measurements of heat-treated hafnium dioxide",

abstract = "Low mechanical loss, high index-of-refraction thin-film coating materials are of particular interest to the gravitational wave detection community, where reduced mirror coating thermal noise in gravitational wave detectors is desirable. Current studies are focused on understanding the loss of amorphous metal oxides such as SiO2, Ta2O5 and HfO2. Here, we report recent measurements of the temperature dependence of the mechanical loss of ion-beam sputtered hafnium dioxide (HfO2) coatings that have undergone heat treatment. The results indicate that, even when partially crystallized, these coatings have lower loss than amorphous Ta2O5 films below similar to 100 K and that their loss exhibits some features which are heat-treatment dependent in the temperature range of similar to 100-200 K, with higher heat treatment yielding lower mechanical loss. The potential for using silica doping of hafnia coatings to prevent crystallization is discussed.",

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Abernathy, MR, Reid, S, Chalkley, E, Bassiri, R, Martin, IW, Evans, K, Fejer, MM, Gretarsson, A, Harry, GM, Hough, J, MacLaren, I, Markosyan, A, Murray, P, Nawrodt, R, Penn, S, Route, R, Rowan, S & Seidel, P 2011, 'Cryogenic mechanical loss measurements of heat-treated hafnium dioxide', Classical and Quantum Gravity, vol. 28, no. 19, pp. 195017. https://doi.org/10.1088/0264-9381/28/19/195017

TY - JOUR

T1 - Cryogenic mechanical loss measurements of heat-treated hafnium dioxide

AU - Abernathy, MR

AU - Reid, S

AU - Chalkley, Eleanor

AU - Bassiri, R

AU - Martin, IW

AU - Evans, K

AU - Fejer, MM

AU - Gretarsson, A

AU - Harry, GM

AU - Hough, J

AU - MacLaren, I

AU - Markosyan, A

AU - Murray, P

AU - Nawrodt, R

AU - Penn, S

AU - Route, R

AU - Rowan, S

AU - Seidel, P

PY - 2011/10/1

Y1 - 2011/10/1

N2 - Low mechanical loss, high index-of-refraction thin-film coating materials are of particular interest to the gravitational wave detection community, where reduced mirror coating thermal noise in gravitational wave detectors is desirable. Current studies are focused on understanding the loss of amorphous metal oxides such as SiO2, Ta2O5 and HfO2. Here, we report recent measurements of the temperature dependence of the mechanical loss of ion-beam sputtered hafnium dioxide (HfO2) coatings that have undergone heat treatment. The results indicate that, even when partially crystallized, these coatings have lower loss than amorphous Ta2O5 films below similar to 100 K and that their loss exhibits some features which are heat-treatment dependent in the temperature range of similar to 100-200 K, with higher heat treatment yielding lower mechanical loss. The potential for using silica doping of hafnia coatings to prevent crystallization is discussed.

AB - Low mechanical loss, high index-of-refraction thin-film coating materials are of particular interest to the gravitational wave detection community, where reduced mirror coating thermal noise in gravitational wave detectors is desirable. Current studies are focused on understanding the loss of amorphous metal oxides such as SiO2, Ta2O5 and HfO2. Here, we report recent measurements of the temperature dependence of the mechanical loss of ion-beam sputtered hafnium dioxide (HfO2) coatings that have undergone heat treatment. The results indicate that, even when partially crystallized, these coatings have lower loss than amorphous Ta2O5 films below similar to 100 K and that their loss exhibits some features which are heat-treatment dependent in the temperature range of similar to 100-200 K, with higher heat treatment yielding lower mechanical loss. The potential for using silica doping of hafnia coatings to prevent crystallization is discussed.

U2 - 10.1088/0264-9381/28/19/195017

DO - 10.1088/0264-9381/28/19/195017

M3 - Article

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VL - 28

SP - 195017

JO - Classical and Quantum Gravity

JF - Classical and Quantum Gravity

IS - 19

ER -

Cryogenic mechanical loss measurements of heat-treated hafnium dioxide

Abstract

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