Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/23569
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Type: Journal article
Title: Compensation of strong thermal lensing in high-optical-power cavities
Author: Zhao, C.
Degallaix, J.
Ju, L.
Fan, Y.
Blair, D.
Slagmolen, B.
Gray, M.
Mow-Lowry, C.
McClelland, D.
Hosken, D.
Mudge, D.
Brooks, A.
Munch, J.
Veitch, P.
Barton, M.
Billingsley, G.
Citation: Physical Review Letters, 2006; 96(23):231101-1-231101-4
Publisher: American Physical Soc
Issue Date: 2006
ISSN: 0031-9007
1079-7114
Statement of
Responsibility: 
C. Zhao, J. Degallaix, L. Ju, Y. Fan, D. G. Blair, B. J. J. Slagmolen, M. B. Gray, C. M. Mow Lowry, D. E. McClelland, D. J. Hosken, D. Mudge, A. Brooks, J. Munch, P. J. Veitch, M. A. Barton and G. Billingsley
Abstract: In an experiment to simulate the conditions in high optical power advanced gravitational wave detectors, we show for the first time that the time evolution of strong thermal lenses follows the predicted infinite sum of exponentials (approximated by a double exponential), and that such lenses can be compensated using an intracavity compensation plate heated on its cylindrical surface. We show that high finesse ~1400 can be achieved in cavities with internal compensation plates, and that mode matching can be maintained. The experiment achieves a wave front distortion similar to that expected for the input test mass substrate in the Advanced Laser Interferometer Gravitational Wave Observatory, and shows that thermal compensation schemes are viable. It is also shown that the measurements allow a direct measurement of substrate optical absorption in the test mass and the compensation plate.
Rights: ©2006 American Physical Society
RMID: 0020060744
DOI: 10.1103/PhysRevLett.96.231101
Appears in Collections:Physics publications
Environment Institute publications

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