Irradiation-induced processes and electronic excitations in nonlinear optical materials

Ogorodnikov, I. N.; Kruzhalov, A. V.

doi:10.1007/BF02509612

Irradiation-induced processes and electronic excitations in nonlinear optical materials

Published: March 2000

Volume 43, pages 225–240, (2000)
Cite this article

Russian Physics Journal Aims and scope

I. N. Ogorodnikov &
A. V. Kruzhalov

We’re sorry, something doesn't seem to be working properly.

Please try refreshing the page. If that doesn't work, please contact support so we can address the problem.

Abstract

The original results obtained under the supervision of the authors and the literature data on optoirradiative stability, irradiation-induced processes, and electronic excitations in nonlinear optical materials, using a comparatively new wide-gap nonlinear LiB₃O₅ crystal as well as KDP (KH₂PO₄) and DKDP (KD₂PO₄) crystals are reviewed.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Ab initio nonlinear optics in solids: linear electro-optic effect and electric-field induced second-harmonic generation

Article 24 November 2022

A new strategy: A more valid determination of the nonlinear optical parameters for optoelectronic applications

Article 16 July 2022

Nonlinear Refraction of Dielectric Single Crystals under Excitation with Ultrashort Near-Infrared Laser Pulses

Article 01 October 2019

References

S. Zhao, C. Huang, and H. Zhang, J. Cryst. Growth,99, 805–810 (1990).
Google Scholar
F. Xie, B. Wu, G. You, and C. Chen, Opt. Lett.,6, No. 4, 616–625 (1989).
Google Scholar
C. Chen, Y. Wu, A. Jaing,et al., J. Opt. Soc. Am.,6, No. 4, 616–625 (1989).
ADS Google Scholar
S. G. Bartoshevich, I. V. Mikhnyuk, G. A. Skripko, and I. G. Tarazevich, Abstr. 14^th Int. Conf. Coher. Nonlinear Optics,3, 166–167 (1991).
Google Scholar
G. A. Skripko, S. G. Bartoshevich, I. V. Mikhnyuk, and I. G. Tarazevich, Opt. Lett.,16, No. 22, 1726–1728 (1991).
ADS Google Scholar
O. M. Efimov, Author's Abstract of Cand. Phys.-Math. Sci. Dissert., Leningrad (1985).
H. Blombergen, Kvant. Elektron.,1, No. 4, 786–805 (1974).
Google Scholar
L. B. Glebov and O. M. Efimov, Izv. Akad. Nauk SSSR, Ser. Fiz.,49, No. 6, 1140–1145 (1985).
Google Scholar
A. S. Epifanov, A. A. Manenkov, A. M. Prokhorov,et al., Trudy P.N. Lebedev Fiz. Inst. Akad. Nauk SSSR,100, 87–129 (1977).
Google Scholar
Yu. K. Daneleyko, A. A. Manenkov, and V. S. Nechitaylo, Trudy P. N. Lebedev Fiz. Inst. Akad. Nauk SSSR,101, 9–30 (1979).
Google Scholar
Yu. K. Daneleyko, A. A. Manenkov, and V. S. Nechitaylo, Kvant. Elektron.,5, No. 1, 194–195 (1978).
Google Scholar
B. G. Gorshkov, A. S. Epifanov, A. A. Manenkov,et al., Kvant. Elektron.,6, No. 11, 2415–2419 (1979).
Google Scholar
A. P. Gagarin, L. B. Glebov, V. G. Dokuchaev,et al., Zh. Tekh. Fiz.,52, No. 1, 101–103 (1982).
Google Scholar
L. B. Glebov, V. G. Dokuchaev, O. M. Efimov,et al., Izv. Akad. Nauk SSSR, Ser. Fiz.,49, No. 6, 1179–1182 (1985).
Google Scholar
B. M. Ashkenadze and N. V. Volkovà, Fiz. Tverd. Tela,9, 476–479 (1967).
Google Scholar
N. V. Volkova and P. N. Tsiryul'nik, Opt. Mekh. Prom., No. 12, 35–36 (1972).
Google Scholar
J. Koppitz, O. F. Schirmer, M. Wohlecke,et al., Ferroelectrics,92, 233–241 (1989).
Google Scholar
A. I. Kuznetsov, Author's Abstract of Cand. Phys.-Math. Sci. Dissert., Ekaterinburg (1992).
P. A. Thomas and B. E. Watls, Sol. Stat. Commun.,73, No. 2, 97–100 (1990).
Article MATH ADS Google Scholar
M. Bass and H. Barret, Symposium ASTM, 76 (1971).
A. M. Bonch-Bruevich, I. A. Aleshin, Ya. A. Imas, and A. V. Pavshukov, Zh. Tekh. Fiz.,41, No. 3, 617–620 (1971).
Google Scholar
S. V. Vron'ko, S. N. Zhukov, and A. Chmel', Fiz. Tverd. Tela,20, No. 12, 3570–3575 (1978).
Google Scholar
B. G. Gorshkov, Yu. K. Daneleyko, Yu. P. Minaev,et al., Kvant. Elektron.,11, No. 10, 2019–2055 (1978).
Google Scholar
I. N. Ogorodnikov, V. Yu. Ivanov, and A. V. Kruzhalov, Fiz. Tverd. Tela,36, No. 11, 3287–3298 (1994).
Google Scholar
I. N. Ogorodnikov, V. I. Kirpa, A. V. Kruzhalov, and A. V. Porotnikov, Zh. Tekh. Fiz.,67, No. 7, 121–125 (1997).
Google Scholar
I. N. Ogorodnikov, V. Yu. Ivanov, A. Yu. Kuznetzov,et al., Pis'ma Zh. Tekh. Fiz.,19, No. 2, 14–17 (1993).
Google Scholar
I. N. Ogorodnikov, A. Yu. Kuznetzov, A. V. Kruzhalov, and V. A. Maslov, Radiat. Measur.,24, No. 4, 423–426 (1995).
Article Google Scholar
I. N. Ogorodnikov, A. V. Kruzhalov, A. Yu. Kuznetzov, Radiat. Protect. Dosim.,65, Nos. 1-4, 109–112 (1996).
Google Scholar
A. A. Khodyakov, M. Kh. Dzhafarov, L. N. Kurilenko,et al., Zh. Fiz. Khim., No. 9, 2561–2563 (1991).
Google Scholar
I. N. Ogorodnikov, A. V. Porotnikov, S. V. Kudyakov, and A. V. Kruzhalov, ESR Study of Trapped Hole Center in LiB₃O₅, in: Materials Science Forum, R. Williams and G. Matthews (eds.), Transtech Publications, Switzerland, Vols. 239–241 (1997), pp. 239–241.
Google Scholar
I. N. Ogorodnikov, S. V. Kudyakov, A. Yu. Kuznetsov,et al., Pis'ma Zh. Tekh. Fiz.,19, No. 13, 77–80 (1993).
Google Scholar
I. N. Ogorodnikov, A. Yu. Kuznetsov, A. V. Kruzhalov,et al., Radiat. Eff. Defect. Solid,136, 233–237 (1995).
Google Scholar
A. V. Porotnikov, I. N. Ogorodnikov, S. V. Kudyakov,et al., Fiz. Tverd. Tela,39, No. 8, 1380–1383 (1997).
Google Scholar
A. Yu. Kuznetsov, A. B. Sobolev, I. N. Ogorodnikov, and A. V. Kruzhalov, Fiz. Tverd. Tela,36, No. 12, 3530–3536 (1994).
Google Scholar
I. N. Ogorodnikov, A. V. Kruzhalov, and A. V. Porotnikov, Proc. SPIE,2967 120–125 (1997).
ADS Google Scholar
I. N. Ogorodnikov, V. Yu. Ivanov, A. A. Maslakov,et al., Pis'ma Zh. Tekh. Fiz.,19, No. 16, 42–47 (1993).
Google Scholar
A. Yu. Kuznetzov, V. Yu. Ivanov, I. N. Ogorodnikov,et al., Nucl. Instr. Methods Phys. Res. A.,359, 339–341 (1995).
Article ADS Google Scholar
V. A. Maslov, I. N. Ogorodnikov, L. A. Ol'khovaya,et al., Zh. Prikl. Spektrosk.,59, Nos. 3–4, 293–298 (1993).
Google Scholar
I. N. Ogorodnikov, A. V. Porotnikov, V. A. Pustovalov, and A. V. Kruzhalov, J. Lumin.,72–74, 703–704 (1997).
Article Google Scholar
I. N. Ogorodnikov, V. A. Pustovalov, A. V. Porotnikov, and A. V. Kruzhalov, Nucl. Instr. Methods Phys. Res. A.,405, 403–407 (1998).
Article ADS Google Scholar
I. N. Ogorodnikov, E. A. Radzhabov, L. I. Isaenko, and A. V. Kruzhalov, Fiz. Tverd. Tela,41, No. 2, 223–228 (1999).
Google Scholar
I. N. Ogorodnikov, V. Yu. Ivanov, A. Yu. Kuznetsov,et al., Pis'ma Zh. Tekh. Fiz.,19, No. 11, 1–5 (1993).
Google Scholar
A. Yu. Kuznetsov, M. V. Kuznetsov, I. N. Ogorodnikov,et al., Fiz. Tverd. Tela,36, No. 3, 845–848 (1994).
Google Scholar
A. B. Sobolev, A. Yu. Kuznetsov, I. N. Ogorodnikov, and A. V. Kruzhalov, Fiz. Tverd. Tela,36, No. 5, 1517–1521 (1994).
Google Scholar
A. Yu. Kuznetsov, A. B. Sobolev, I. N. Ogorodnikov, A. V. Kruzhalov,et al., Radiat. Eff. Defect. Solid,134, 69–73 (1995).
Google Scholar
I. N. Ogorodnikov, A. V. Porotnikov, S. V. Kudyakov,et al., Fiz. Tverd. Tela,39, No. 9, 1535–1537 (1997).
Google Scholar
I. N. Ogorodnikov, A. V. Kruzhalov, A. V. Porotnikov, and V. Yu. Yakovlev, J. Lumin.,76–77, 464–466 (1998).
Article Google Scholar
I. N. Ogorodnikov, A. Yu. Kuznetsov, A. V. Kruzhalov, and V. A. Maslov, Pis'ma Zh. Tekh. Fiz.,20, No. 5, 63–66 (1994).
Google Scholar
I. N. Ogorodnikov, A. Yu. Kuznetsov, and A. V. Porotnikov, Pis'ma Zh. Tekh. Fiz.,20, No. 13, 66–71 (1994).
Google Scholar
I. N. Ogorodnikov, A. V. Porotnikov, A. V. Kruzhalov, and V. Yu. Yakovlev, Fiz. Tverd. Tela,40, No. 11, 2008–2014 (1998).
Google Scholar
T. A. Belykh, I. N. Ogorodnikov, A. V. Porotnikov,et al., Fiz. Khim. Organ. Mater., No. 6, 27–32 (1997).
Google Scholar
E. V. Peshikov, Kristallografiya,17, No. 6, 1175–1180 (1972).
Google Scholar
E. V. Peshikov, Radiation Effects in Segnetoelectrics, FAN, Tashkent (1986).
Google Scholar
E. V. Lokshin, Kristallografiya,41, No. 6, 1115–1124 (1996).
Google Scholar
E. V. Lokshin, Kristallografiya,41, No. 6, 1125–1134 (1996).
Google Scholar
V. I. Pakhomova, G. B. Sil'nitskaya, and P. M. Fedorov, Izv. Akad. Nauk SSSR, Ser. Fiz.,31, No. 7, 1082–1084 (1967).
Google Scholar
G. A. Smolenskii, V. A. Bokov, V. A. Isupova,et al., Segnetoelectrics and Antisegnetoelectrics, Leningrad, Nauka (1971).
Google Scholar
V. I. Pakhomova, G. B. Sil'nitskaya, B. K. Kazurov, and I. S. Rez, Neorgan. Mater.,14 No. 7, 1320–1323 (1978).
Google Scholar
K. A. Müller, Ferroelectrics,72, 273–304 (1987).
Google Scholar
K. A. Müller and W. Berlinger, Phys. Rev. Lett.,37, No. 14, 916–919 (1976).
Article ADS Google Scholar
B. V. R. Chowdari and J. Ravi Sekhar, J. Chem. Phys.,75, No. 6, 2513–2520 (1981).
Article ADS Google Scholar
H. Koga and K. Hukuda, J. Phys. Soc. Jpn.,25, No. 2, 630 (1968).
ADS Google Scholar
N. S. Dalal, J. A. Hebden, and C. A. McDowell, J. Chem. Phys.,62, No. 11, 4404–4410 (1975).
Article ADS Google Scholar
T. Kobayashi, J. Phys. Soc. Jpn.,35, No. 2, 558–572 (1973).
ADS Google Scholar
H. K. Diemer, E. J. Bijvank, and H. W. den Hartog, Phys. Status Solidi (b),87, No. 2, 697–706 (1978).
Google Scholar
R. P. Kohin, and R. C. DuVarney, Phys. Rev. Lett.,20, No. 6, 259–262 (1968).
ADS Google Scholar
W. E. Hughes and W. G. Moulton, J. Chem. Phys.,39, No. 5, 1359–1360 (1963).
Article ADS Google Scholar
A. I. Ryabov, N. S. Stel'markh, G. N. Pirogova,et al., Fiz. Tverd. Tela,33, No. 9, 2660–2662 (1991).
Google Scholar
K. Tsuchiba, P. Abe and M. Naito, J. Phys. Soc. Jpn.,35, No. 3, 806 (1973).
Article ADS Google Scholar
Yu. A. Demochko, B. I. Zakharkin, and B. S. Naumov, Izv. Akad. Nauk SSSR, Ser. Fiz.,54, No. 6, 1114–1116 (1990).
Google Scholar
A. N. Levchenko and V. M. Shulga, Zh. Prikl. Spektrosk.,52, No. 5, 857–859 (1990).
Google Scholar
V. V. Azarov, L. V. Atroshchenko, M. I. Kolybaeva,et al., Fiz. Khim. Organ. Mater., No. 5, 34–36 (1984).
Google Scholar
G. N. Pirogova, Yu. V. Voronin, B. E. Kritskaya,et al., Izv. Akad. Nauk SSSR, Ser. Fiz.,22, No. 1, 115–119 (1986).
Google Scholar
N. A. Romanyuk and B. V. Andrievsky, Dielectric Materials in Radioelectronics [in Russian], Moscow (1977).
V. T. Kuanyshev, T. A. Belykh, I. N. Ogorodnikov,et al., Poverhnost., Nos. 5–6, 57–60 (1999).
Google Scholar
V. T. Kuanyshev, I. N. Ogorodnikov, and M. M. Kidibaev, Probl. Spektrosk. Spektrom., No. 2, 49–51 (1999).
Google Scholar
H. P. Yockey and G. L. Aseltine, Phys. Rev. B,11, No. 11, 4373–4382 (1975).
Article ADS Google Scholar

Download references

Authors

I. N. Ogorodnikov
View author publications
You can also search for this author in PubMed Google Scholar
A. V. Kruzhalov
View author publications
You can also search for this author in PubMed Google Scholar

Additional information

Urals State Technical University. Translated from Izvestiya Vysshikh Uchebnykh Zavedenii, Fizika, No. 3, pp. 66–84, March, 2000.

Rights and permissions

Reprints and permissions

About this article

Cite this article

Ogorodnikov, I.N., Kruzhalov, A.V. Irradiation-induced processes and electronic excitations in nonlinear optical materials. Russ Phys J 43, 225–240 (2000). https://doi.org/10.1007/BF02509612

Download citation

Issue Date: March 2000
DOI: https://doi.org/10.1007/BF02509612

Keywords

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Irradiation-induced processes and electronic excitations in nonlinear optical materials

Abstract

Access this article

Similar content being viewed by others

Ab initio nonlinear optics in solids: linear electro-optic effect and electric-field induced second-harmonic generation

A new strategy: A more valid determination of the nonlinear optical parameters for optoelectronic applications

Nonlinear Refraction of Dielectric Single Crystals under Excitation with Ultrashort Near-Infrared Laser Pulses

References

Additional information

Rights and permissions

About this article

Cite this article

Keywords

Navigation

Irradiation-induced processes and electronic excitations in nonlinear optical materials

Abstract

Access this article

Similar content being viewed by others

Ab initio nonlinear optics in solids: linear electro-optic effect and electric-field induced second-harmonic generation

A new strategy: A more valid determination of the nonlinear optical parameters for optoelectronic applications

Nonlinear Refraction of Dielectric Single Crystals under Excitation with Ultrashort Near-Infrared Laser Pulses

References

Additional information

Rights and permissions

About this article

Cite this article

Share this article

Keywords

Search

Navigation