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by Lqirupdwlrq Surylghg, Qxpehuv Lq, Eudfnhwv Fruuhvsrqg, W R Wkh, Ydoxh Vwlpdwhg, Psdfw Ri, W K H Ehwwhu, W K H Frqihuhqfh, Frqihuhqfhv Zlwk, Deryh Kdyh, Ehhq Lqfoxghg, E X W Wklv, L V Jhwwlqj, Pruh Ri, D Fkdoohqjh Wkdq, Ruljlqdoo Dqwlflsdwhg, Rqihuhqfhv Olvwhg, Ehorz Duh, Frqvlghuhg Wr, E H Wlhu, Uhvhdufk Phhwlqjv, L Q Wkhlu, Uhvshfwlyh Ilhogv, Frqihuhqfhv Duh, Olvwhg Frqvlghuhg show all authors
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Science (2010)
Volume: 6, Issue: 10, Pages: 10-19

Abstract

We propose and experimentally demonstrate a new reconstruction scheme for coherence holography using computer-generated phase-shift coherence holograms. A 3D object encoded into the spatial coherence function is reconstructed directly from a set of incoherently illuminated computer-generated holograms with numerically introduced phase shifts. Although a rotating ground glass is used to introduce spatially incoherent illumination, the phase-shifting portion of the system is simple and free from mechanically moving components.

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Readership Statistics

4 Readers on Mendeley
by Discipline
 
50% Computer and Information Science
 
25% Electrical and Electronic Engineering
 
25% Physics
by Academic Status
 
50% Post Doc
 
25% Ph.D. Student
 
25% Associate Professor
by Country
 
25% South Korea
 
25% China
 
25% Spain