Space-time digital holography (STDH) exploits the object motion to record the hologram in a hybrid ST domain. This representation adds new capabilities to conventional DH, e.g., unlimited field of view and variable phase shifting. This is the best candidate for imaging biological samples flowing in microfluidic channels. Here, we show that STDH is able to improve the spatial resolution as well. Different from other super-resolution approaches, stitching between holograms or their spectra is no longer required. Moreover, we introduce a new oblique STDH modality to record and process hybrid ST representations. This allows improving resolution in 2D with one single object scan, paving the way to the use of STDH for super-resolution imaging onboard microfluidic devices.

Resolution gain in space-time digital holography by self-assembling of the object frequencies / Bianco, V; Wang, Z; Cui, Y; Paturzo, M; Ferraro, P. - In: OPTICS LETTERS. - ISSN 1539-4794. - 43:17(2018), pp. 4248-4251. [10.1364/OL.43.004248]

Resolution gain in space-time digital holography by self-assembling of the object frequencies

Wang, Z;Ferraro, P
2018

Abstract

Space-time digital holography (STDH) exploits the object motion to record the hologram in a hybrid ST domain. This representation adds new capabilities to conventional DH, e.g., unlimited field of view and variable phase shifting. This is the best candidate for imaging biological samples flowing in microfluidic channels. Here, we show that STDH is able to improve the spatial resolution as well. Different from other super-resolution approaches, stitching between holograms or their spectra is no longer required. Moreover, we introduce a new oblique STDH modality to record and process hybrid ST representations. This allows improving resolution in 2D with one single object scan, paving the way to the use of STDH for super-resolution imaging onboard microfluidic devices.
2018
Resolution gain in space-time digital holography by self-assembling of the object frequencies / Bianco, V; Wang, Z; Cui, Y; Paturzo, M; Ferraro, P. - In: OPTICS LETTERS. - ISSN 1539-4794. - 43:17(2018), pp. 4248-4251. [10.1364/OL.43.004248]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/903025
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