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Optical Metrology

Residual flatness error correction in three-dimensional imaging confocal microscopes

Optical Metrology
研究開発エンジニアリングマネージャー、光工学博士、フォトニクス理学修士 at Sensofar Metrology | Other articles

2010年よりSensofarで共焦点法、干渉法、焦点移動法の開発に携わる。2018年より研究開発エンジニアリングマネージャーを務める。光学機械システム設計と画像処理に焦点を当てている。\n光工学におけるその総合的な研究活動は、Sensofarの研究開発グループをイノベーションと高い技術レベルで常に最先端に立つ卓越した位置付けへと導いている。

Residual flatness error correction in three-dimensional imaging confocal microscopes full article
Carlos Bermúdez1, A. Felgner2, Pol Martinez1, Aitor Matilla1, Cristina Cadevall1, Roger Artigas1
1Sensofar-Tech, S.L. (Spain)
2Physikalisch-Technische Bundesanstalt (Germany)
Proceedings Volume 10678, Optical Micro- and Nanometrology VII; 106780M (2018)
Event: SPIE Photonics Europe, 2018, Strasbourg, France

Abstract

Imaging Confocal Microscopes (ICM) are highly used for the assessment of three-dimensional measurement of technical surfaces. The benefit of an ICM in comparison to an interferometer is the use of high numerical aperture microscope objectives, which allows retrieving signal from high slope regions of a surface. When measuring a flat sample, such as a high-quality mirror, all ICM’s show a complex shape of low frequencies instead of a uniform flat result. Such shape, obtained from a λ/10, Sa < 0.5 nm calibration mirror is used as a reference for being subtracted from all the measurements, according to ISO 25178-607. This is true and valid only for those surfaces that have small slopes. When measuring surfaces with varying local slopes or tilted with respect to the calibration, the flatness error calibration is no longer valid, leaving what is called the residual flatness error.

In this paper the Sensofar and PTB teams show that the residual flatness error on a reference sphere measured with a 10X can make the measurement of the radius to have up to 10% error. We analyzed the sources that generate this effect and proposed a method to correct it: we measured a tilted mirror with several angles and characterized the flatness error as a function of the distance to the optical axis, and the tilt angle. New measurements take into account such characterization by assessing the local slopes. We tested the method on calibrated reference spheres and proved to provide correct measurements. We also analyzed this behavior in Laser Scan as well on Microdisplay Scan confocal microscopes.

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