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SMV-2023-40: Characterization of sources and optical elements of coherent optics and use for commercial devices
Holá, Miroslava ; Řeřucha, Šimon ; Pravdová, Lenka ; Čížek, Martin
The contract research was focused on the characterization of the laser source. The characterization of the laser source was divided into two parts. The first part was focused on characterizing the optical frequency of the laser source for at least 100 hours with a resolution better than 100kHz. The second part concerned the zero-drift characterization of a common-path differential interferometer. It was a measurement of interference phase fluctuations during the reflection of interferometer arm beams on a common mirror (zero-drift) lasting at least 100 hours with a resolution better than 1 nm for a pair of differential interferometers with simultaneous measurement of atmospheric parameters.
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Characterization and elimination of thermomechanical effects in interferometric length measurement
Řeřucha, Šimon ; Holá, Miroslava ; Lazar, Josef ; Mikel, Břetislav ; Číp, Ondřej
Continuous efforts to develop dimensional measurements at both the nano- and macro-scale continue to present challenges in extending high-precision measurement procedures from the well-controlled experimental environment of a typically single measurement cycle to a constant-load production environment. In the field of laser interferometry, which is both a cornerstone of length metrology in general and an essential part of nanometrology, we have focused on long-term measurement stability (so-called zero-drift) in measurement scenarios and applications based on (mostly laser) interferometry. A well-characterized and compensated measurement zero-drift in such applications becomes more important both with applications in less controlled environments and with increasing measurement timeframes, such as long scans in microscopic nanometrology, long exposures in electron lithography, or interferometric reference calibrations with a larger number of calibration points or repetitions. The goal of the current research effort is to comprehensively investigate error effects and contributions to measurement uncertainty related to zero-drift in laser interferometry-based applications, with a particular focus on temperature effects (as these typically appear to be the dominant contribution) and approaches to suppress them. This effort involves several complementary directions.
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SMV-2022-38: Characterization of sources and optical elements of coherent optics and use for commercial devices
Holá, Miroslava ; Řeřucha, Šimon ; Pravdová, Lenka ; Čížek, Martin
The contract research was focused on the characterization of the flatness of the optical elements and the characterization of the laser source. The optical elements were characterized using a Zygo interferometer. The characterization of the laser source was divided into two parts. The first part was focused on characterizing the optical frequency of the laser source for at least 100 hours with a resolution better than 100kHz. The second part concerned the zero-drift characterization of a common-path differential interferometer. It was a measurement of interference phase fluctuations during the reflection of interferometer arm beams on a common mirror (zero-drift) lasting at least 100 hours with a resolution better than 1 nm for a pair of differential interferometers with simultaneous measurement of atmospheric parameters.
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