In this paper, we report a novel approach based on a lensless Synthetic Optical Holography (SOH) that is aimed to recover the complex scattered field from buried surfaces at different wavelengths with sub-nanometric spectral resolution, without affecting the phase retrieval in depth. The proposed technique is applied to characterize and image the field scattered from a rough embedded surface of a microfluidic channel. The real and imaginary part of the random complex field revealed the presence of 2D optical vortices at each location in which a phase singularity is located. A statistical study of optical vortices is presented and the high spectral resolution is exploited to study the behavior of topological charges with the frequency shift.
Synthetic optical holography for in-depth imaging of optical vortices in speckle patterns / Di Donato, A.; Tamagnone, M.; Criante, L.; Cavanini, L.; Mencarelli, D.; Ippoliti, G.; Pierantoni, L.; Orlando, G.; Morini, A.; Farina, M.. - In: AIP ADVANCES. - ISSN 2158-3226. - ELETTRONICO. - 9:1(2019), p. 015211. [10.1063/1.5053564]
Synthetic optical holography for in-depth imaging of optical vortices in speckle patterns
Di Donato, A.
;Criante, L.;Cavanini, L.;Mencarelli, D.;Ippoliti, G.;Pierantoni, L.;Orlando, G.;Morini, A.;Farina, M.
2019-01-01
Abstract
In this paper, we report a novel approach based on a lensless Synthetic Optical Holography (SOH) that is aimed to recover the complex scattered field from buried surfaces at different wavelengths with sub-nanometric spectral resolution, without affecting the phase retrieval in depth. The proposed technique is applied to characterize and image the field scattered from a rough embedded surface of a microfluidic channel. The real and imaginary part of the random complex field revealed the presence of 2D optical vortices at each location in which a phase singularity is located. A statistical study of optical vortices is presented and the high spectral resolution is exploited to study the behavior of topological charges with the frequency shift.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
