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Mapping the Optical Absorption of a Substrate-Transferred Crystalline AlGaAs Coating at 1.5um

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arxiv 1412.3627 v1 pith:REFURCNO submitted 2014-12-11 physics.optics

Mapping the Optical Absorption of a Substrate-Transferred Crystalline AlGaAs Coating at 1.5um

classification physics.optics
keywords absorptioncoatingcoatingscrystallineopticalalgaasdetectorsgravitational
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The sensitivity of 2nd and 3rd generations of interferometric gravitational wave detectors will be limited by thermal noise of the test-mass mirrors and highly reflective coatings. Recently developed crystalline coatings show a promising thermal noise reduction compared to presently used amorphous coatings. However, stringent requirements apply to the optical properties of the coatings as well. We have mapped the optical absorption of a crystalline AlGaAs coating which is optimized for high reflectivity for a wavelength of 1064nm. The absorption was measured at 1550nm where the coating stack transmits approximately 70% of the laser light. The measured absorption was lower than (30.2 +/- 11.1)ppm which is equivalent to (3.6 +/- 1.3)ppm for a coating stack that is highly reflective at 1530nm. While this is a very promising low absorption result for alternative low--loss coating materials, further work will be necessary to reach the requirements of <1ppm for future gravitational wave detectors.

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