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31 August 2000 Shape measurement using a fiber optic fringe projector with active homodyne phase stepping
Andrew John Moore, Roy McBride, James S. Barton, Julian D. C. Jones
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Proceedings Volume 4076, Optical Diagnostics for Industrial Applications; (2000) https://doi.org/10.1117/12.397945
Event: Symposium on Applied Photonics, 2000, Glasgow, United Kingdom
Abstract
We describe an extension of the active homodyne technique to produce stabilised, (pi) /2 radian phase steps in a full-field interferometer. We have implemented the technique in a single mode fibre optic fringe- projector for shape measurement. The interference intensity (and hence phase) is maintained constant by feedback control to a phase modulator in one of the fibre arms. The feedback system has been modified to produce (pi) /2 radian phase steps in the projected fringes. The phase stability and accuracy of each step was measured to be 17 milliradians in a 50 Hz bandwidth. The technique can be used to produce stabilised phase-stepped images in any fibre or bulk optic interferometer where active homodyne feedback control can be implemented.
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Andrew John Moore, Roy McBride, James S. Barton, and Julian D. C. Jones "Shape measurement using a fiber optic fringe projector with active homodyne phase stepping", Proc. SPIE 4076, Optical Diagnostics for Industrial Applications, (31 August 2000); https://doi.org/10.1117/12.397945
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KEYWORDS
Homodyne detection
Calibration
Interferometers
Servomechanisms
Fiber optics
Projection systems
Modulators
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