Semiconductor Physics, Quantum Electronics and Optoelectronics, 21 (4), P. 429-433 (2018).


1. Jesacher A., Maurer C., Furhapter S., Schwaighofer A., Bernet S., and Ritsch-Marte M. Optical tweezers of programmable shape with transverse scattering forces. Opt. Commun. 2008. 281. P. 2207–2212.

2. Hayasaki Y., Sugimoto T., Takita A., and Nishida N. Variable holographic femtosecond laser processing by use of a spatial light modulator. Appl. Phys. Lett. 2005. 87, No 3. P. 031101-1 – 031101-3.

3. Kondo T., Juodkazis S., Mizeikis V., Misawa H., and Matsuo S. Holographic lithography of periodic two- and three-dimensional microstructures in photoresist SU-8. Opt. Exp. 2006. 14, No 17. P. 7943–7953.

6. Derzhypolskyy A.G., Poperenko L.A. Random phase modulator as the stabilizer of intensity distribution restored from Fourier hologram. Bulletin of Taras Shevchenko National Universiry of Kyiv. Series: Physics & Mathematics. 2007. 4. P. 322–327.

7. Purcell M.J., Kumar M., Rand S.C., and Lakshminarayanan V. Holographic imaging through a scattering medium by diffuser-aided statistical averaging. J. Opt. Soc. Am. A. 2016. 33, No 7. P. 1291–1297.

8. Yu. Wang, P. Meng, D. Wang, Lu Rong, S. Panezai. Speckle noise suppression in digital holography by angular diversity with phase-only spatial light modula. Opt. Exp. 2013. 21, No. 17. P. 19568–19578.

9. Baumbach T., Kolenovic E., Kebbel V., and Jüptner W. Improvement of accuracy in digital holography by use of multiple holograms. Appl. Opt. 2006. 45, No. 24. P. 6077–6085.

10. Memmolo P., Bianco V., Paturzo M., Javidi B., Netti P.A., Ferraro P. Encoding multiple holograms for speckle-noise reduction in optical display. Opt. Exp. 2014. 22, No 21. P. 25768–25775.