Abstract
Holography is an imaging method based on the interference ability of coherent light. Apart from artistic and commercial applications, holograms are often used as storage media in databank systems and in devices for optical measurement.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Agfa-Gevaert N.V. (1988) NDT/Holografie. DIS/NDT Technische Information (Fotografische Materialien für die Holografie). Mortsel, Belgien
Benton S.A. (1969) Hologram reconstruction with extended incoherent sources. J Opt Soc Am 59:1545–1546
Bergmann-Schaefer (1987) Lehrbuch der Experimentalphysik. In: Band III Optik H. Gobrecht (Herausgeber). de Gruyter Verlag
Bexn R. et al. (1976) Automatic assessment of aerosol holograms. J Aerosol Science 7:397–407
Brooks R. E., Heflinger L.O., Wuerker R.F. (1965) Interferometry with a holographically reconstructed comparison beam. Applied Physics Letters 7:248–249
BS 4803 (1982) Radiation Safety of Laser Products and Systems (A guide for protection of personal against hazards from laser radiation). British Standards Institution
Burch J.M. (1965) The application of lasers in production engineering. The Production Engineer 44:431–442
Chávez A. (1991) Holografische Untersuchungen an Einspritzstrahlen, Fluiddynamik und Wärmeübergang durch Kondensation, PhD-Thesis TU München, Germany
Chávez A. Mayinger F. (1988) Single-and double pulsed holography for the characterization of sprays of refrigerant R113 injected into its own saturated vapor. In: Shah R.K., Ganic E.N., Yang K.T. (Eds.) Experimental Heat Transfer Fluid Mechanics and Thermodynamics. Elsevier, 848–854
Chen Y.-M. (1985) Wärmeübergang an der Phasengrenze kondensierender Blasen. PhD-Thesis TU München
Collier R.J., Doherty E.T., Pennington K.S. (1965) Application of moire techniques to holography. Applied Physics Letters 7:223–225
De Belter M. (Agfa-Gevaert, Anwerpen), Nassenstein H., Mets H.J. (Agfa-Gevaert A.G., Leverkusen), Smits J.J.R. (Agfa-Gevaert N.V., Mortsel) (1967) Photographische Materialien für die Holographie. Holographie-Arbeitstagung, Batteile Institut e.V. Frankfurt/Main
Gabor D. (May 15 1948) A new microscopic principle. Nature 161:777–778
Feldmann O., Mayinger F. (1998) Laser Pulsed Holography Applied to the Three-Dimensional Two-Phase-Flow in Aerated Stirred Vessels. In: C. M. Carlomagno et al. (Eds.) CD Rom Proc. of the 8th Intl. Symp. on Flow Visualization, Sorrento, Italy, Sept. 1-4, 1998. Edinburgh
Gebhard P. (1996) Zerfall und Verdampfung von Einspritzstrahlen aus lamellenbildenden Düsen. PhD-Thesis TU München, Germany
Hariharan P. (1984) Optical Holography. Cambridge University Press
Haussmann G. (1979) Digitale Bildverarbeitung an dreidimensionalen Hologrammrekonstruktionen. Ein Verfahren zur Auswertung von Partikelverteilungen. PhD-Thesis TU Göttingen
Holographie-Arbeitstagung (1967) Batteile Institut e.V. Frankfurt/Main
Lauterborn W., Ebeling K.J. (1976) High-speed holocinematography of cavitation bubbles. In: XII Int. Congr. on High Speed Photography, Toronto SPIE, Canada 97:96–103
Leith E.N., Upatnieks J. (1962) Reconstructed wavefronts and communication theory. J Opt Soc Am 52:1123–1130
Leith E.N., Upatnieks J. (1964) Wavefront reconstructed with diffused illumination and three-dimensional objects. J Opt Soc Am 54:1195–1301
Mallow A., Chabot L. (1978) Laser Safety Handbuch. Van Nostrand Reinhold
Mayinger F., Panknin W. (1974) Holography in heat and mass transfer. In: 5th Int. Heat Transfer Conference at Tokyo, Japan, 1974 Vol.6:28–43
Mayinger F. (1988) Advances in optical interferometry for combined heat and mass transfer. In: Prep. 2nd. Int. Sym. on Heat Transfer at Beijing, China, 1988
Mayinger F., Feldmann O., Gebhard P. (1998) Evaluation of pulsed laser holograms of flashing sprays by digital image processing and holographic particle image velocimetry. Nuclear Engineering and Design 184:239–252
Nishida K., Nurakami N., Hiroyasu H. (1987) Holographic measurement of evaporating diesel sprays at high pressure and temperature. JSME Int. Journal Vol.30 259:107–115
Nordmann D. (1980) Temperatur, Druck und Wärmetransport in der Umgebung kondensierender Blasen. PhD-Thesis TU Hannover
Peterson D.A., Tankin R.S., Bankoff S.G. (1983) Holographic measurements of bubble size and velocity in a three-phase system. In: J.M. Delhaye and G. Cognet (Eds.) Measuring Techniques in Gas-Liquid Two-Phase Flows, IUTAM Sym. at Nancy, France, 1983. Springer Verlag 1984
Panknin W. (1977) Eine holographische Zweiwellenlängeninterferometrie zur Messung überlagerter Temperatur-und Konzentrationsgrenzschichten. PhD-Thesis TU Hannover
Schäfer M., Umhauer H. (1987) Realization of a concept for the complete evaluation of double pulse holograms of particulate phases in flows. Particle Characterization 4:166–174
Smeets G., George A. (1972) Doppelbelichtungs-Interferometrie. Bericht 39/72 Deutsch-Französisches Institut, Saint Louis, France
Spornik N. (1989) Modern holographic methods of flow visualization. In: 5th. Int. Symp. on Flow Visualization, Prague, Checoslovakia
Thompson B.J. (1974) Holographic particle sizing techniques. J Physics E.: Scientific Instruments 7:781–788
Timko J.J. (1984) The investigation of transport phenomena by applied holography. In: Int. Symp. on Fluid Visualization at Bochum, Germany, 429–434
Trollinger J.D. (1975) Flow visualization holography. Optical Engineering 14:383–392
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2001 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Feldmann, O., Gebhard, P., Chavez, A. (2001). Short Time Holography. In: Mayinger, F., Feldmann, O. (eds) Optical Measurements. Heat and Mass Transfer. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-56443-7_5
Download citation
DOI: https://doi.org/10.1007/978-3-642-56443-7_5
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-63079-8
Online ISBN: 978-3-642-56443-7
eBook Packages: Springer Book Archive