[1] |
Gabor, D. Microscopy by reconstructed wave-fronts. Proceedings of the Royal Society A:Mathematical,Physical and Engineering Sciences 197, 454-487 (1949). |
[2] |
Leith, E. N. & Upatnieks, J. Reconstructed wavefronts and communication theory. Journal of the Optical Society of America 52, 1123-1130 (1962). doi: 10.1364/JOSA.52.001123 |
[3] |
Leith, E. N. & Upatnieks, J. New techniques in wavefront reconstruction. Journal of the Optical Society of America 51, 1469-1473 (1961). |
[4] |
Denisyuk, Y. N. Photographic reconstruction of the optical properties of an object in its own scattered radiation field. Doklady Akademii Nauk SSSR 144, 1275-1279 (1962). |
[5] |
Denisyuk, Y. N. Fundamentals of Holography, Lecture notes, revised from the 1978 Russian edition, Mir publishers, (1984) |
[6] |
Leith, E. N. A data processing system viewed as an optical model of a radar system. Memo to W. A. Blikken of Willow Run Laboratories, University of Michigan, 22 May (1956). |
[7] |
Caufield, H. J. The Art and Science of Holography: a Tribute to Emmeth Leith and Yuri Denisyuk. (Bellingham: SPIE Press, 2004). |
[8] |
Lohmann, A. W. Optical Information Processing. (Universitätsverlag Illmenau, 2006). |
[9] |
Haines, K. A. The credit card holography story (2020). at https://www.phi.xyz/credit-card-holography. |
[10] |
Welling. Photography in America. (University of New Mexico Press, 1987). |
[11] |
Schnars, U. et al. Digital Holography and Wavefront Sensing. (New York: Springer, 2015). |
[12] |
Picart, P. New Techniques in Digital Holography. (London: John Wiley & Sons, 2015). |
[13] |
Haines, K. A. Development of embossed holograms. Proceedings of the SPIE 2652, Practical Holography X. San Jose: SPIE, 1996. |
[14] |
Haines, K. & Haines, D. Computer graphics for holography. IEEE Computer Graphics and Applications 12, 37-46 (1992). |
[15] |
Trolinger, J. D. et al. SHIVA-(Spaceflight Holography in a Virtual Apparatus). Microgravity Materials Science Conference 2000. NASA, 2001. |
[16] |
Yu, X. et al. Review of digital holographic microscopy for three-dimensional profiling and tracking. Optical Engineering 53, 112306 (2014). |
[17] |
Trolinger, J. D. & Dioumaev, A. K. A new digital holographic microscope for the study of biological systems. Proceedings of the SPIE 11490 Interferometry XX. SPIE, (2020) |
[18] |
Williams, E. G. Fourier Acoustics: Sound Radiation and Nearfield Acoustical Holography. (Academic Press, 1999). |
[19] |
Faigel, G. & Tegze, M. X-ray holography. Reports on Progress in Physics 355-393 (1999). |
[20] |
Zhuravlev, A. et al. Shallow depth subsurface imaging with microwave holography. Proceedings of the SPIE 9072, Detection and Sensing of Mines, Explosive Objects, and Obscured Targets XIX. Baltimore: SPIE, 2014. http://dx.doi.org/10.1117/12.2051492. |