Abstract

This investigation in holographic interferometry concerns an approach to a systematic quasi-compensation by appropriate optical modifications at the reconstruction in order that the fringes of interference become visible in the case of large unknown object deformations. The relevant relations are established by using the aberration theory for the image formation in combination with elementary intrinsic differential geometry.

© 1989 Optical Society of America

Conjugate wave holographic interferometry for the measurement of in-plane deformations

Luciano Pirodda
Appl. Opt. 28(10) 1842-1844 (1989)

Holographic Interferometry Applied to Measurements of Small Static Displacements of Diffusely Reflecting Surfaces

Jon E. Sollid
Appl. Opt. 8(8) 1587-1595 (1969)

Statistical properties of interference phase detection in speckle fields applied to holographic interferometry

Ruedi Thalmann and René Dändliker
J. Opt. Soc. Am. A 3(7) 972-981 (1986)

Detection of hidden stationary deformations of vibrating surfaces by use of time-averaged digital holographic interferometry

Nazif Demoli and Dalibor Vukicevic
Opt. Lett. 29(20) 2423-2425 (2004)

Convergence criteria for iterative schemes in holographic interferometry and the tomography of strongly refracting objects

A. T. Dolovich and G. M. L. Gladwell
Appl. Opt. 28(20) 4411-4418 (1989)