Abstract
The implementation of a digital holographic interferometry setup for high-speed micro-deformation measurement is presented. This proposal uses a dual-wavelength recording strategy to reconstruct micro-deformations up to 4.85 µm with no phase wrapping. The numerical processing required to recover the phase maps containing the information of micro-deformations is carried out in a general-purpose computing on graphics processing unit environment to boost its performance. The method completely processes recorded holograms of ${1024} \times {1024}\;{\rm pixels}$ in 48 ms, i.e., 21 frames per second (FPS) for a single-wavelength acquisition and 96 ms or 11 FPS for dual-wavelength recordings. The method is experimentally evaluated measuring deformations ranging from 0.033 µm to 4.85 µm with no need for phase unwrapping algorithms for an 8 cm diameter aluminum plate in a ${110}\;{{\rm cm}^2}$ field of view.
© 2022 Optica Publishing Group
Full Article | PDF ArticleMore Like This
Daniel D. Aguayo, Fernando Mendoza Santoyo, Manuel H. De la Torre-I, Manuel D. Salas-Araiza, Cristian Caloca-Mendez, and David Asael Gutierrez Hernandez
Opt. Express 18(6) 5661-5667 (2010)
Gannavarpu Rajshekhar, Sai Siva Gorthi, and Pramod Rastogi
Appl. Opt. 50(34) H16-H21 (2011)
Giancarlo Pedrini, Wolfgang Osten, and Mikhail E. Gusev
Appl. Opt. 45(15) 3456-3462 (2006)