论文信息 - High precision deformation measurement by digital phase shifting holographic interferometry.

High precision deformation measurement by digital phase shifting holographic interferometry.

A digital phase shifting technique capable of quantitatively determining the phase of holographic interferometric displacement fringes is presented. This technique uses computer control to take data and calculate surface deformation. The phase value at each detector point can be calculated by taking four successive intensity data frames with the reference phase shifted between each frame. The displacement fringe order number can be assigned by adding or subtracting 2π from a data point until the phase difference between adjacent data points is less than π. Experimental results show that this technique can precisely determine a fraction of a fringe with an accuracy of ±1°.

[1] K. Creath. Phase-Shifting Speckle Interferometry , 1985, Optics & Photonics.

[2] B. F. Oreb,et al. A digital phase-measurement system for real-time holographic interferometry , 1982 .

[3] J. P. Sikora,et al. An improved method for obtaining the general-displacement field from a holographic interferogram , 1972 .

[4] B. Ineichen,et al. High resolution hologram interferometry by electronic phase measurement , 1973 .

[5] P Hariharan,et al. Real-time holographic interferometry: a microcomputer system for the measurement of vector displacements. , 1983, Applied optics.

[6] J C Wyant,et al. Phase shifter calibration in phase-shifting interferometry. , 1985, Applied optics.

[7] Accuracy of heterodyne holographic strain and stress determination , 1979 .

[8] C M Vest,et al. Statistical analysis of errors in holographic interferometry. , 1978, Applied optics.

[9] P. Carré. Installation et utilisation du comparateur photoélectrique et interférentiel du Bureau International des Poids et Mesures , 1966 .