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Proceedings Paper

Studies Of Elastic Properties Of Solids With Dynamic Holography
Author(s): A. A. Kamshilin; A . A. Oliva; E Moreno
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Paper Abstract

Double-exposure holographic interferometry in BTO photorefractive crystals using He-Ne laser (40 nIV ) light was demonstrated . The recording intensity, determined mainly by the reference beam, leads to a recording time of A,5 sec. This holographic interferometer can display continuously the interferograms on a TV-receiver. Experiments for the measurement of Young's modulus show the good reliability of the method and instrument. It is well known that double exposure holographic interferometry allows high precision measurements of small surface displacements produced in the analyzed real object by external force, When the analyzed object has a simple shape (for example, cantilevel beam), one can calculate static Young's modulus from measured displacement of the object's surface under definite external stress. In order to carry out automatization of the measuring process for different samples, it is necessary to record and reconstruct holograms several times per a minute, i.e. to obtain automatically double-exposure holographic interferograms. This can be done using photore-fractive electrooptic crystals, which are one of the best reversible media for the record-ing of dynamic hologram. We have used automatical holographic interferometer with a photo-refractive Bi12T1020 (BTO) crystal for experimental investigation of some solids, The BTO crystal is the most sensitive among photorefractive crystals for red recording light. Hence, it is possible to use a He-Ne laser (632,7 nm) as a coherent light source in the inteferometer.

Paper Details

Date Published: 18 May 1989
PDF: 3 pages
Proc. SPIE 1033, Trends in Quantum Electronics, (18 May 1989); doi: 10.1117/12.950643
Show Author Affiliations
A. A. Kamshilin, Academy of Sciences of the USSR (USSR)
A . A. Oliva, Cuban Academy of Sciences (Cuba)
E Moreno, Cuban Academy of Sciences (Cuba)

Published in SPIE Proceedings Vol. 1033:
Trends in Quantum Electronics
Ioan Ursu, Editor(s)

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