Abstract
Gabor (1948), for the first time, presented the concept holography. In 1971, the Nobel Prize in physics was awarded on him for his invention of holography, which opened a new era in the flow visualization. This was a long time before the advent of the lasers. Encouraged by the development of lasers, Light beams are characterized by their amplitude and phase angle. Leith and Upatnieks (1962) developed off-axis holography in which object and reference beams, OB and RB, illuminate on a holographic film with an off-axial direction and became a basis of modern holographic interferometry.
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References
Gabor, D. (1948). A new microscopic principle. Nature, 161, 777–778.
Gabor, D. (1949). Microscopy by reconstructed wave fronts. Proceedings of the Royal Society of London, 197, 454–487.
Houwing, A. F. P., Takayama, K., Jiang, Z., Sun, M., Yada, K., & Mitobe, H. (2005). Interferometric measurement of density in nonstationary shock wave reflection flow and comparison with CFD. Shock Waves, 14, 11–19.
Leith, E. N., & Upatnieks, J. (1962). Reconstructed wave fronts and communication theory. Journal of the Optical Society of America A, 52, 1123–1130.
Mandella, M., & Bershader, D. (1986) Quantitative study of shock-generated compressible vortex flows. In D. Bershader & R. Hanson (Eds.), Proceeding 15th International Symposium on Shock Waves and Shock Tubes Shock Waves and Shock Tubes (pp. 471–477) Berkeley.
Russell, D. A., Buonadonna, V. R., Jones, T. G. (1974). Double expansion nozzle for shock tunnel and Ludwieg Tube. In D. Bershader & W. Griffith (Eds.), Recent developments in shock tube research. In Proceeding of 9th International Shock Tube Symposium (pp. 238–249). Stanford.
Takayama, K. (1983). Application of holographic interferometry to shock wave research. In Proceeding SPIE 298 International Symposium of Industrial Application of Holographic Interferometry (pp. 174–181).
Wortberg, G. (1974). A holographic interferometer for gas dynamic measurement. In D. Bershader & W. Griffith (Eds.), Proceedings of the International Symposium on Shock Waves Recent Developments in Shock Tube Research (pp. 267–276) Stanford.
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Takayama, K. (2019). Holographic Visualization of Shock Wave Phenomena. In: Visualization of Shock Wave Phenomena. Springer, Cham. https://doi.org/10.1007/978-3-030-19451-2_1
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DOI: https://doi.org/10.1007/978-3-030-19451-2_1
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