Important User Information: Remote access to EBSCO's databases is permitted to patrons of subscribing institutions accessing from remote locations for personal, non-commercial use. However, remote access to EBSCO's databases from non-subscribing institutions is not allowed if the purpose of the use is for commercial gain through cost reduction or avoidance for a non-subscribing institution. Abstract: In this work fringes patterns axe obtain themselves experimentally that show the deformation that undergoes an object when applying to him a effort of mechanical origin, by means of digital holographic interferometry of double exposure. The experimental assembly for the digital record and the numerical reconstruction of the hologram of the object was made before and after to be deformed for, finally to obtain the deformation fringes.
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Skip to search form Skip to main content You are currently offline. Some features of the site may not work correctly. This Master thesis presents the implementation of digital holographic interferometry technique DHI for micro-deformation measurement with a fast algorithm that obtains video rates micro-deformations.
In DHI, two digital holograms of the object under study are recorded for the different states of it. The phase differences that quantify the changes of the object are obtained by direct subtraction of the phase maps obtained from the digital holograms. View PDF. Save to Library. Create Alert. Launch Research Feed.
Share This Paper. Topics from this paper. Holographic interferometry Central processing unit Linear algebra. Algorithm Pixel General-purpose computing on graphics processing units.
Map Benchmark computing. References Publications referenced by this paper. Principles of digital holographic interferometry Thomas Kreis , Werner P. Asundi Physics Methods of digital holography: a comparison Thomas Kreis , Mike D. Adams , Werner P. Direct phase determination in hologram interferometry with use of digitally recorded holograms Ulf Schnars Physics Real-time numerical reconstruction of digitally recorded holograms Carlos Trujillo , John F. Digital recording and numerical reconstruction of holograms: reduction of the spatial frequency spectrum Ulf Schnars , Thomas Kreis , Werner P.
Digital recording and numerical reconstruction of holograms Ulf Schnars , Werner P. Jueptner Physics Digital recording and numerical reconstruction of lensless fourier holograms in optical metrology.
Dynamic digital holographic interferometry with three wavelengths. Related Papers. Abstract Topics 61 References Related Papers. By clicking accept or continuing to use the site, you agree to the terms outlined in our Privacy Policy , Terms of Service , and Dataset License.
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Holography: science, art and technology. This article provides a historical review of the origins of holography, placing particular emphasis on the contributions made by Gabor, Denisyuk and Leith to the development of holographic techniques. First of all the physical basis of holography is discussed: interference and difraction, together with the processes involved in recording and reconstructing holograms. The article finishes with a brief description of some of the most important applications of holography in the fields of science, technology and art. Keywords: holography, history of physics, applications of holography.
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