Zhe Wang
National Research Council
33 Papers
16 Citations
Zhe Wang is an academic researcher from National Research Council. The author has contributed to research in topics: Holography & Computer science. The author has an hindex of 4, co-authored 13 publications. Previous affiliations of Zhe Wang include University of Naples Federico II & Beijing University of Technology.
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Papers
Digital holography as metrology tool at micro-nanoscale for soft matter
Zhe Wang,Lisa Miccio,Sara Coppola,Vittorio Bianco,Pasquale Memmolo,Volodymyr Tkachenko,Vincenzo Ferraro,Ernesto Di Maio,Pier Luca Maffettone,Pietro Ferraro +9 more
TL;DR: Digital holography has been considered an important measurement tool for non-destructive inspection (NDI), strain-stress measurement, and vibration analysis at various engineering sites as discussed by the authors .
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Compensation of aberrations in holographic microscopes: main strategies and applications
Daniele Gaetano Sirico,Lisa Miccio,Zhe Wang,Pasquale Memmolo,Wen Xiao,Leiping Che,Lu Xin,Feng Pan,Pietro Ferraro +8 more
TL;DR: In this article , the most effective and robust methods to remove or compensate phase aberrations in retrieved quantitative phase imaging by digital holography are presented and discussed in detail on how to remove and compensate for such disturbing artifacts.
Holographic flow scanning cytometry overcomes depth of focus limits and smartly adapts to microfluidic speed.
TL;DR: In this paper , the authors demonstrate a novel processing pipeline that addresses non-ideal flow conditions and is capable of returning the correct and extended focus phase contrast mapping of an entire microfluidic experiment in a single image.
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•Posted Content
Quantitative imaging of the complexity in liquid bubbles' evolution reveals the dynamics of film retraction
Biagio Mandracchia,Zhe Wang,Vincenzo Ferraro,Massimiliano M. Villone,Ernesto Di Maio,Pier Luca Maffettone,Pietro Ferraro +6 more
TL;DR: In this article, a holographic technique that combines quantitative phase imaging with a custom setup designed to form and manipulate bubbles is proposed to provide an unparalleled insight into bubble dynamics through the combination of full-field thickness estimation, 3D imaging, and fast acquisition time.
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Long-term holographic phase-contrast time lapse reveals cytoplasmic circulation in dehydrating plant cells.
TL;DR: It is predicted that such a dehydrating process can be effective for improving phase contrast, thus permitting better imaging of plant cells with the scope of learning more about cellular dynamics and related phenomena.
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