[1] |
Hariharan, P. Optical Holography: Principles, Techniques and Applications. (New York: Cambridge University Press, 1984). |
[2] |
Schnars, U. et al. Digital Holography and Wavefront Sensing. (Heidelberg: Springer, 2015). |
[3] |
Kemper, B. & Von Bally, G. Digital holographic microscopy for live cell applications and technical inspection. Applied Optics 47, A52-A61 (2008). doi: 10.1364/AO.47.000A52 |
[4] |
Langehanenberg, P., Von Bally, G. & Kemper, B. Autofocusing in digital holographic microscopy. 3D Research 2, 4 (2011). |
[5] |
Simic, A. et al. In-line quality control of micro parts using digital holography. Proceedings of SPIE 10233, Holography: Advances and Modern Trends V. Prague: SPIE, 2017, 1023311. |
[6] |
Falldorf, C. et al. Reduction of speckle noise in multiwavelength contouring. Applied Optics 51, 8211-8215 (2012). doi: 10.1364/AO.51.008211 |
[7] |
Kujawinska, M. et al. Multiwavefront digital holographic television. Optics Express 22, 2324-2336 (2014). doi: 10.1364/OE.22.002324 |
[8] |
Agour, M., Falldorf, C. & Bergmann, R. B. Holographic display system for dynamic synthesis of 3D light fields with increased space bandwidth product. Optics Express 24, 14393-14405 (2016). doi: 10.1364/OE.24.014393 |
[9] |
Kelly, D. P. et al. Quantifying the 2.5D imaging performance of digital holographic systems. Journal of the European Optical Society 6, 11034 (2011). doi: 10.2971/jeos.2011.11034 |
[10] |
Kozacki, T. et al. Holographic capture and display systems in circular configurations. Journal of Display Technology 8, 225-232 (2012). doi: 10.1109/JDT.2011.2167955 |
[11] |
Schnars, U. Digitale Aufzeichnung und Mathematische Rekonstruktion von Hologrammen in der Interferometrie. (Duesseldorf: VDI-Verlag, series 8, No 378, 1994). |
[12] |
Situ, G. & Sheridan, J. T. Holography: an interpretation from the phase-space point of view. Optics Letters 32, 3492-3494 (2007). doi: 10.1364/OL.32.003492 |
[13] |
Testorf, M. E., Hennelly, B. M. & Ojeda-Castañeda, Phase-Space Optics: Fundamentals and Applications. (New York: McGraw-Hill, 2009). |
[14] |
Hennelly, B. M. Digital holography in the light of phase space. Progress in Electromagnetics Research 515 (2010). |
[15] |
Kozacki, T. et al. Extended viewing angle holographic display system with tilted SLMs in a circular configuration. Applied Optics 51, 1771-1780 (2012). doi: 10.1364/AO.51.001771 |
[16] |
Arnold, J. M. Rays, beams and diffraction in a discrete phase space: Wilson bases. Optics Express 10, 716-727 (2002). doi: 10.1364/OE.10.000716 |
[17] |
Gabor, D. Theory of communication. Part 1: the analysis of information. Journal of the Institution of Electrical Engineers-Part III:Radio and Communication Engineering 93, 429-441 (1946). doi: 10.1049/ji-3-2.1946.0074 |
[18] |
Lohmann, A. W. et al. Space–bandwidth product of optical signals and systems. Journal of the Optical Society of America A 13, 470-473 (1996). doi: 10.1364/JOSAA.13.000470 |
[19] |
Bastiaans, M. J. Wigner distribution function and its application to first-order optics. Journal of the Optical Society of America 69, 1710-1716 (1979). doi: 10.1364/JOSA.69.001710 |
[20] |
Testorf, M. & Lohmann, A. W. Holography in phase space. Applied Optics 47, A70-A77 (2008). doi: 10.1364/AO.47.000A70 |
[21] |
Stern, A. & Javidi, B. Improved-resolution digital holography using the generalized sampling theorem for locally band-limited fields. Journal of the Optical Society of America A 23, 1227-1235 (2006). doi: 10.1364/JOSAA.23.001227 |
[22] |
Kreis, T. M., Adams, M. & Jueptner, W. P. O. Aperture synthesis in digital holography. Proceedings of SPIE 4777, Interferometry Xi: Techniques and Analysis. Seattle: SPIE, 2002, 69-76. |