References
- Lee, C.-K., Wu, J.W.-J., Yeh, S.-L., & Tu, C.-W. (2000). Optical configuration and color-representation range of a variable pitch dot matrix holographic printer. Appl. Optics, 39 (1), 40.
- Yaotang, L., Tianji, W., Shining, Y., & Shichao, Z. (1998). Theoretical and experimental study of dot matrix hologram. Proc. SPIE, 3569, 121
- Bulanov, A., Gerbreders, V., & Paschkevich, V. (2007). Dot-matrix holographic recording in amorphous chalcogenide films. Proc. SPIE, 6596, 124
- Pizzanelly, D. (2004). The development of direct-write digital holography. Technical review (Holographer.org.).
- Kohler, C., & Schwab, X. (2006). Optimally turned spatial light modulators for digital holography. Appl. Optics,. 45 (5), 960-967.
- Inoue, T., Tanaka, H., & Fukuchi, N. (2007). LcoS spatial light modulator controlled by 12-bit signals for optical phase-only modulation, Proc. SPIE, 6487.
- Sutkowski, S., & Kujawinska, M. (2000). Application of liquid crystal (LC) devices for optoelectronic reconstruction of digitally stored holograms. Opt. Laser Eng., 33, 191-201
- Sarma, R. (1999). Liquid Crystal Display. CRC Press LLC.
- http://www.holoeye.com
- http://www.standa.lt/products/catalog/lasers
- Teteris, J. (2002). Holographic recording in amorphous chalcogenide semiconductor thin films. JOAM, 4 (3), 687.
- Teteris, J., & Reinfelde, M. (2003). Application of amorphous chalcogenide semiconductor thin films in optical recording technologies. JOAM, 5 (5), 1355.
- Mednikarov, B., & Sahatchieva, M. (2005). Photolithographic structuring with evaporated inorganic photoresist. JOAM, 7 (3), 1415.
- Goodman, J.W. (1996). Introduction to Fourier Optics. McGraw-Hill.