Optical coatings for gravitational wave detection

Creators: Harry, Gregory M.; Armandula, Helena; Black, Eric; Crooks, D. R. M.; Cagnoli, Gianpietro; Fejer, Martin M.; Hough, Jim; Penn, Steven D.; Rowan, Sheila; Route, Roger; Sneddon, Peter

Others:: Kruschwitz, Jennifer D. T.; Oliver, James B.

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Abstract

Gravitational waves are a prediction of Einstein's General Theory of Relativity. Astrophysical events like supernova and binary neutron star inspirals are predicted to create potentially detectable waves. The Laser Interferometer Gravitational-wave Observatory (LIGO) is an experiment to detect these waves using Michelson interferometers with 4 km long arms. The effect of gravitational waves, even on an interferometer with such a long baseline, is extremely, with mirror displacements around 10^(-18)m. Reducing noise is thus a primary design criterion. For the next generation interferometers now being designed, thermal noise from the optical coatings of the interferometer mirrors could prove a problematic limiting noise source. Reducing the mechanical loss of these coatings to improve thermal noise, while preserving the sub-ppm optical absorption, low scatter, and high reflectivity needed in the interferometer is an important area of research.

Additional Information

© 2004 Society of Photo-Optical Instrumentation Engineers (SPIE). The LIGO Observatories were constructed by the California Institute of Technology and Massachusetts Institute of Technology with funding from the National Science Foundation under cooperative agreement PHY 9210038. The LIGO Laboratory operates under cooperative agreement PHY-0107417. This paper has been assigned LIGO Document Number LIGO-P040023-00-D.

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