Holographic and speckle interferometry : a discussion of the theory, practice, and application of the techniques /

Holographic and speckle interferometry are optical techniques which use lasers to make non-contracting field view measurements at a sensitivity of the wavelength of light on optically rough (i.e. non-mirrored) surfaces. They may be used to measure static or dynamic displacements, the shape of object...

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Bibliographic Details
Main Authors: Jones, Robert, 1946- (Author), Wykes, Catherine, 1944- (Author)
Format: Electronic eBook
Language:English
Published: Cambridge : Cambridge University Press, 1989.
Edition:Second edition.
Series:Cambridge studies in modern optics ; 6.
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Online Access:CONNECT
Description
Summary:Holographic and speckle interferometry are optical techniques which use lasers to make non-contracting field view measurements at a sensitivity of the wavelength of light on optically rough (i.e. non-mirrored) surfaces. They may be used to measure static or dynamic displacements, the shape of objects, and refractive index variations of transparent media. As such, these techniques have been applied to the solution of a wide range of problems in strain and vibrational analysis, non-destructive testing (NDT), component inspection and design analysis and fluid flow visualisation. This book provides a self-contained, unified, theoretical analysis of the basic principles and associated opto-electronic techniques (for example Electronic Speckle Pattern Interferometry). In addition, a detailed discussion of experimental design and practical application to the solution of physical problems is presented. In this new edition, the authors have taken the opportunity to include a much more coherent description of more than twenty individual case studies that are representative of the main uses to which the techniques are put. The Bibliography has also been brought up to date.
Item Description:Title from publisher's bibliographic system (viewed on 05 Oct 2015).
Physical Description:1 online resource (x, 353 pages) : digital, PDF file(s).
ISBN:9780511622465 (ebook)