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10 - Absorption and thermal issues
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- By Phil Willems, California Institute of Technology, David Ottaway, University of Adelaide, Peter Beyersdorf, San Jose State University
- Edited by Gregory Harry, American University, Washington DC, Timothy P. Bodiya, Massachusetts Institute of Technology, Riccardo DeSalvo, Università degli Studi del Sannio, Italy
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- Book:
- Optical Coatings and Thermal Noise in Precision Measurement
- Published online:
- 05 January 2012
- Print publication:
- 12 January 2012, pp 145-162
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- Chapter
- Export citation
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Summary
Overview
Light incident on high quality optical surfaces and substrates can be lost from the beam in two possible ways. The light can be scattered from the beam due to imperfections such as microroughness or point defects, which is discussed in Chapter 11. Alternatively, the light can be absorbed by the coating or the substrates. Experiments over many decades have shown that for high quality mirrors reflecting radiation in the IR range, the dominant loss mechanism is scatter by often more than an order of magnitude. This large bias towards loss due to scatter makes it very challenging to measure the absorption in such optics. The optical absorption of the mirror coatings in high precision applications like gravitational wave interferometers (see Chapter 14) typically ranges from a fewtenths of parts per million (ppm) to several ppm. Given that the loss in mirrors is completely dominated by scatter, one may ask the question: why then is such a small level of absorption important? The reason is thermal aberrations.
Clearly, absorption at far larger than ppm levels is widely tolerated in many other types of optical instruments – metallic mirror coatings typically absorb a few percent of light incident upon them, for example. But most optical instruments are either of low power, or low precision, or both. Absorption does play a central role in setting the damage threshold intensity in high power optics. Precision measurements are typically not at such high optical power that laser damage is an issue.