Pendulum mode thermal noise in advanced interferometers: a comparison of fused silica fibers and ribbons in the presence of surface loss

Pendulum mode thermal noise in advanced interferometers: a comparison of fused silica fibers and ribbons in the presence of surface loss

The use of fused-silica ribbons as suspensions in gravitational wave interferometers can result in significant improvements in pendulum mode thermal noise. Surface loss sets a lower bound to the level of noise achievable, at what level depends on the dissipation depth and other physical parameters....

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Bibliographic Details
Published in:Physics letters. A Vol. 270; no. 3; pp. 108 - 114
Main Authors: Gretarsson, Andri M., Harry, Gregory M., Penn, Steven D., Saulson, Peter R., Startin, William J., Rowan, Sheila, Cagnoli, Gianpietro, Hough, Jim
Format: Journal Article
Language:English
Published: Elsevier B.V 29-05-2000
Subjects:
05.40.Ca
04.80.Nn
95.55.Ym
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Summary:The use of fused-silica ribbons as suspensions in gravitational wave interferometers can result in significant improvements in pendulum mode thermal noise. Surface loss sets a lower bound to the level of noise achievable, at what level depends on the dissipation depth and other physical parameters. For LIGO II, the high breaking strength of pristine fused silica filaments, the correct choice of ribbon aspect ratio (to minimize thermoelastic damping), and low dissipation depth combined with the other achievable parameters can reduce the pendulum mode thermal noise in a ribbon suspension well below the radiation pressure noise. Despite producing higher levels of pendulum mode thermal noise, cylindrical fiber suspensions provide an acceptable alternative for LIGO II, should unforeseen problems with ribbon suspensions arise.
ISSN:0375-9601
1873-2429
DOI:10.1016/S0375-9601(00)00295-4