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10 March 2015 Differentiation method for phase recovery
Meriç Özcan
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Proceedings Volume 9386, Practical Holography XXIX: Materials and Applications; 938606 (2015) https://doi.org/10.1117/12.2078106
Event: SPIE OPTO, 2015, San Francisco, California, United States
Abstract
Here we consider a derivative based method for phase recovery and demonstrate a numerical method that can be described as differentiate and cross multiply operation to obtain the phase gradient. This method uses quadrature phase data that is in sine and cosine form, which is a natural outcome many interferometric measurements including that of digital holographic reconstruction. Since the differentiation is performed on trigonometric functions which are discrete, it is shown that the method of differentiation and the sampling rate are important considerations especially for the noise corrupt signals. The method is initially developed for 1D phase signals, and then later extended to 2D. Noise performance of the method is also investigated, and it is shown that for extremely noisy signals the method can be adapted to an iteration routine which recovers the phase successfully. We present simulations and the experimental results which show the validity of the approach.
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Meriç Özcan "Differentiation method for phase recovery", Proc. SPIE 9386, Practical Holography XXIX: Materials and Applications, 938606 (10 March 2015); https://doi.org/10.1117/12.2078106
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KEYWORDS
Interference (communication)
Signal processing
Digital holography
Holography
Algorithm development
Holograms
Holographic interferometry
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