Abstract
The review discusses the possibility of obtaining highly effective relief-phase structures on silver halide photographic emulsions and dichromated gelatin layers by irradiating initially recorded holographic structures with short-wave UV radiation.
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S. N. Gulyaev and V. P. Ratushnyi, J. Opt. Technol. 70, 105 (2003). doi 10.1364/JOT.70.000105
S. N. Gulyaev and I. V. Isaev, Proc. SPIE 4348, 59 (2001).
V. A. Barachevsky, Opt. Spectrosc. 124, 373 (2018). doi 10.21883/OS.2018.03.45659.238-17
C. Neipp, I. Pascual, and A. Beléndez, Appl. Opt. 41, 4092 (2002).
M. Ulibarrena, L. Carretero, R. Madrigal, S. Blaya, and A. Fimia, Opt. Express 11, 3385 (2003).
I. Bányász, Opt. Commum. 225, 269 (2003).
I. Bányász, Appl. Phys. Lett. 83, 4282 (2003).
S. V. Lim, D. V. Choy, and S. Kh. Son, J. Opt. Technol. 71, 26 (2004).
J. M. Kim, B. S. Choi, S. I. Kim, J. M. Kim, H. I. Bjelkhagen, and N. J. Phillips, Appl. Opt. 40, 622 (2001).
J. M. Kim, B. S. Choi, Y. S. Choi, J. M. Kim, H. I. Bjelkhagen, and N. J. Phillips, Appl. Opt. 41, 1522 (2002).
Yu. E. Usanov and M. K. Shevtsov, Opt. Spectrosc. 69, 112 (1990).
Yu. E. Usanov, M. K. Shevtsov, N. L. Kosobokova, and E. A. Kirienko, Opt. Spectrosc. 71, 375 (1991).
C. Neipp, A. Márquez, I. Pascual, and A. Beléndez, J. Opt. A: Pure Appl. Opt. 5, S183 (2003).
H. M. Smith, J. Opt. Soc. Am. 58, 533 (1968).
E. B. Brui and S. N. Koreshev, Opt. Spectrosc. 67, 403 (1989).
A. D. Gal’pern, I. V. Kalinina, L. V. Selyavko, and V. P. Smaev, Opt. Spectrosc. 60, 644 (1986).
F. N. Ecevit, A. Alaçakir, and R. Aydin, Appl. Opt. 35, 6227 (1996).
E. Navarrete-Garcia and S. Calixto, Opt. Mater. 23, 501 (2003).
M. M. Butusov and A. I. Ioffe, Sov. J. Quantum Electron. 6, 519 (1976).
S. N. Gulyaev, Cand. Sci. (Phys. Math.) Dissertation (SPb State Polytech. Univ., St. Petersburg, 2005).
N. M. Ganzherl, Y. N. Denisyuk, I. A. Maurer, and D. F. Chernykh, Tech. Phys. 50, 274 (2005). doi 10.1134/1.1866449
N. M. Ganzherli and S. N. Gulyaev, J. Opt. Technol. 74, 622 (2007). doi 10.1364/JOT.74.000622
N. M. Ganzherli, S. N. Gulyaev, and I. A. Maurer, High Energy Chem. 42, 540 (2008). doi 10.1134/ S0018143908070114
N. M. Ganzherli, S. N. Gulyaev, A. S. Gurin, D. D. Kramushchenko, I. A. Maurer, and D. F. Chernykh, Tech. Phys. 54, 1002 (2009). doi 10.1134/ S1063784209070123
N. M. Ganzherli, S. N. Gulyaev, I. A. Maurer, and D. F. Chernykh, Proc. SPIE 7358, 735817 (2009).
E. O’Neil, Introduction to Statistical Optics, Dover Books on Physics (Dover, New York, 2004; Mir, Moscow, 1966).
N. M. Ganzherli, S. N. Gulyaev, I. A. Maurer, and D. F. Chernykh, Mir Golografii 1 (1), 35 (2013). https://doi.org/www.holography-journal.com/wp-content/themes/eCommerce/Files/W_H_vol1_N1.pdf.
N. M. Ganzherli, S. N. Gulyaev, I. A. Maurer, and D. F. Chernykh, Tech. Phys. 59, 1849 (2014).
N. M. Ganzherli, S. N. Gulyaev, I. A. Maurer, and D. F. Chernykh, J. Opt. Technol. 82, 158 (2015).
N. M. Ganzherli, S. N. Gulyaev, A. S. Gurin, D. D. Kramushchenko, I. A. Maurer, and D. F. Chernykh, J. Opt. Technol. 76, 388 (2009). doi 10.1364/ JOT.76.000388
N. M. Ganzherli, S. N. Gulyaev, I. A. Maurer, G. Yu. Sotnikova, and D. F. Chernykh, Proc. SPIE 8074, 80740T-1 (2011).
S. N. Gulyaev, I. A. Maurer, D. F. Chernykh, and S. A. Yalovik, Tech. Phys. 57, 1230 (2012). doi 10.1134/ S1063784212090101
K. S. Pennington, J. S. Harper, and F. P. Laming, Appl. Phys. Lett. 18, 80 (1971).
T. A. Shankoff, Appl. Opt. 7, 2101 (1968). doi 10.1364/ AO.7.002101
O. N. Kozakov and S. A. Kulipanov, Zh. Nauchn. Prikl. Fotogr. Kinematogr. 39 (1), 17 (1994).
N. M. Ganzherli, S. N. Gulyaev, and I. A. Maurer, Tech. Phys. Lett. 42, 988 (2016). doi 10.1134/ S1063785016100060
N. M. Ganzherli, S. N. Gulyaev, and I. A. Maurer, J. Opt. Technol. 84, 617 (2017). doi 10.1364/ JOT.84.000617
N. M. Ganzherli, S. N. Gulyaev, I. A. Maurer, and D. R. Khazvalieva, Opt. Spectrosc. 124, 408 (2018). doi 10.21883/OS.2018.03.45660.246-17
M. A. McCord and M. J. Rooks, in Handbook of Microlithography, Micromachining and Microfabrication, Ed. by P. Rai-Choudhury, Vol. 1: Microlithography (SPIE Opt. Eng. Press, Bellingham, Washington, 1997), Chap. 2, p. 139. doi 10.1117/3.2265070
W. M. Moreau, Semiconductor Lithography Principles: Practices and Materials (Plenum, New York, 1988).
M. Haiducu, M. Rahbar, I. G. Foulds, R. W. Johnstone, D. Sameoto, and M. Parameswaran, J. Micromech. Microeng. 18, 115029 (2008). doi 10.1088/0960- 1317/18/11/115029
R. W. Johnstone, I. G. Foulds, and M. Parameswaran, J. Vac. Sci. Technol. B 26, 682 (2008). doi 10.1116/ 1.2890688
S. N. Gulyaev, in Proceedings of the All-Russia Seminar on Yu.N. Denisyuk Is the Founder of National Holography, St. Petersburg, May 22–24, 2007, p. 168. https://doi.org/www.ioffe.ru/loeg/denisyuk_seminar.html.
M. J. Rooks, E. Kratschmer, R. Viswanathan, J. Katine, R. E. Fontana, Jr., and S. A. MacDonald, J. Vacuum Sci. Technol. B 20, 2937 (2002). doi 10.1116/1.1524971
C. F. Hoole, M. E. Welland, and A. N. Broers, Semicond. Sci. Technol. 12, 1166 (1997). doi 10.1088/0268-1242/12/9/017
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Original Russian Text © N.M. Ganzherli, S.N. Gulyaev, I.A. Maurer, 2018, published in Optika i Spektroskopiya, 2018, Vol. 125, No. 1, pp. 62–70.
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Ganzherli, N.M., Gulyaev, S.N. & Maurer, I.A. The Effect of Short-Wave UV Radiation in Recording Holographic Structures on Gelatin-Containing Recording Media (Overview). Opt. Spectrosc. 125, 65–73 (2018). https://doi.org/10.1134/S0030400X1807010X
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DOI: https://doi.org/10.1134/S0030400X1807010X