论文信息 - Clear coherent imaging in turbid microfluidics by multiple holographic acquisitions.

Clear coherent imaging in turbid microfluidics by multiple holographic acquisitions.

Recently it has been demonstrated that digital holography is a powerful means allowing imaging of both amplitude and phase objects in turbid flowing media. However, in quasi-static turbid microfluidics, multiple scattering contributions through the colloids superimpose coherently to the recording device, resulting in speckle noise and hindering a clear vision of the objects. In this Letter we exploit the Brownian motion of the colloidal particles to get multiple uncorrelated holograms, and we combine them to reduce the speckle contrast. In this way we get a multi-look gain without losing image resolution.

[1] Rajeev Srivastava,et al. Comparison of PDE based and other techniques for speckle reduction from digitally reconstructed holographic images , 2010 .

[2] J. Goodman. Some fundamental properties of speckle , 1976 .

[3] Ervin Kolenovic,et al. Improvement of accuracy in digital holography by use of multiple holograms. , 2006, Applied optics.

[4] Jorge Garcia-Sucerquia,et al. Quantitative assessment of lateral resolution improvement in digital holography , 2008 .

[5] Demetri Psaltis,et al. Three-dimensional scanning microscopy through thin turbid media. , 2012, Optics express.

[6] Daniel Velásquez Prieto,et al. Reduction of speckle noise in digital holography by using digital image processing , 2005 .

[7] Lu Rong,et al. Speckle noise reduction in digital holography by use of multiple polarization holograms , 2010 .

[8] P. Ferraro,et al. Microscopy imaging and quantitative phase contrast mapping in turbid microfluidic channels by digital holography. , 2012, Lab on a chip.

[9] Bryan M. Hennelly,et al. Memory efficient noise reduction in in-line Fresnel digital holography , 2011, Optics + Optoelectronics.

[10] Xiao-ou Cai. Reduction of speckle noise in the reconstructed image of digital holography , 2010 .

[11] Hongying Zhu,et al. Holographic opto-fluidic microscopy , 2010, Optics express.