José Sáez–Landete scite author profile

Abstract:The grating measurement systems can be used for displacement and angle measurements. They require of zero reference codes to obtain zero reference signals and absolute measures. The zero reference signals are obtained from the autocorrelation of two identical zero reference codes. The design of codes which generate optimum signals is rather complex, especially for larges codes. In this paper we present a global optimization method, a DIRECT algorithm for the design of zero reference codes. This method proves to be a powerful tool for solving this inverse problem.

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Design of Two-Dimensional Optical Alignment Signals Robust to Diffractive Effects

Sáez–Landete

Salcedo‐Sanz

Cruz–Roldán

et al. 2008

J. Lightwave Technol.

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A Fast Windowing-Based Technique Exploiting Spline Functions for Designing Modulated Filter Banks

Cruz–Roldán

Martin-Martin

Sáez–Landete

et al. 2009

IEEE Trans. Circuits Syst. I

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Invariant grating pseudoimaging using polychromatic light and a finite extension source

et al. 2008

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The Talbot effect is a well studied phenomenon by which grating pseudoimages appear at certain periodic distances when monochromatic light is used. Recently, numerical simulations have shown a new phenomenon; when a polychromatic light beam is used in a double grating system, the intensity of the pseudoimages presents a transverse-profile that remains unaffected over a wide range of propagation distances. This effect can be used to increase the tolerances of gratings based optical devices, such as displacement measurement systems, interferometers, and spectrometers. The pseudoimages formation with a polychromatic and finite extension light source is analytically and experimentally demonstrated. Relatively simple analytical expressions for the intensity and the contrast allow us to predict when pseudoimages present a constant contrast and when they disappear. Furthermore, we experimentally obtain the pseudoimages using the proposed configuration, corroborating the theoretical predictions.

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