论文信息 - Bright versus dark schlieren imaging: quantitative analysis of quasi-sinusoidal phase objects.

Bright versus dark schlieren imaging: quantitative analysis of quasi-sinusoidal phase objects.

We discuss the schlieren imaging of quasi-sinusoidal phase objects. We demonstrate that, when the zero-order (Fourier) spatial component of the input image is not blocked by the schlieren-knife at the Fourier plane, the intensity distribution on the reconstructed image is a linear function of the phase amplitude. In contrast, if the zero order is completely blocked (i.e., dark Schlieren processing), the intensity distribution on the output image becomes essentially a quadratic function of the phase, and thus a direct phase retrieval is not possible. We discuss the possibility of contrast enhancement and present validation experiments.

José A Ferrari | Ismael Núñez

[1] P C Mogensen,et al. Optimal phase contrast in common-path interferometry. , 2001, Applied optics.

[2] J. Ferrari,et al. Harmonic suppression and defect enhancement using Schlieren processing. , 2005, Applied optics.

[3] Boris Zakharin,et al. Schlieren systems with coherent illumination for quantitative measurements. , 2004, Applied optics.

[4] Luc Joannes,et al. Phase-shifting schlieren: high-resolution quantitative schlieren that uses the phase-shifting technique principle. , 2003, Applied optics.