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Kvantovaya Elektronika, 2010, Volume 40, Number 1, Pages 40–44 (Mi qe14205)  

This article is cited in 14 scientific papers (total in 14 papers)

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Influence of the photoelastic effect on the thermal lensin a YLF crystal

V. V. Zelenogorskii, E. A. Khazanov

Institute of Applied Physics, Russian Academy of Sciences, Nizhny Novgorod

Abstract: The thermal lens in an YLF crystal is calculated taking into account the anisotropy of the thermal conductivity, elasticity, linear expansion, and refractive index. It is proved that the experimentally observed strong astigmatism of the thermal lens in YLF can be explained only taking into account the photoelastic effect. It is shown that, in an YLF crystal cut so that the optical axis lies in the plane of the rod face, the contribution to the thermal lens is made only by three photoelastic coefficients for the ordinary wave and only by two coefficients for the extraordinary wave. Using these five photoelastic coefficients as fitting parameters, all the known experimental data are quantitatively interpreted.

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English version:
Quantum Electronics, 2010, 40:1, 40–44

Bibliographic databases:

PACS: 42.55.Rz, 42.70.Hj, 78.20.Hp
Received: 10.08.2009

Citation: V. V. Zelenogorskii, E. A. Khazanov, “Influence of the photoelastic effect on the thermal lensin a YLF crystal”, Kvantovaya Elektronika, 40:1 (2010), 40–44 [Quantum Electron., 40:1 (2010), 40–44]

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    1. Quantum Electron., 40:12 (2010), 1123–1130  mathnet  crossref  isi  elib
    2. Wang Y.J., Zheng Y.H., Shi Z., Peng K.C., Laser Phys. Lett., 9:7 (2012), 506–510  crossref  adsnasa  isi  elib  scopus
    3. Strauss H.J., Preussler D., Esser M.J.D., Koen W., Jacobs C., Collett O.J.P., Bollig C., Opt. Lett., 38:7 (2013), 1022–1024  crossref  adsnasa  isi  elib  scopus
    4. P.A. Loiko, V.G. Savitski, A Kemp, A.A. Pavlyuk, N.V. Kuleshov, Laser Phys. Lett, 11:5 (2014), 055002  crossref  adsnasa  isi  elib  scopus
    5. Gacheva E.I. Poteomkin A.K. Khazanov E.A. Zelenogorskii V.V. Katin E.V. Luchinin G.A. Balalykin N.I. Minashkin V.F. Nozdrin M.A. Trubnikov G.V. Shirkov G.D., IEEE J. Quantum Electron., 50:7 (2014), 522–529  crossref  adsnasa  isi  elib  scopus
    6. Hiroki Tanaka, Ryosuke Kariyama, Kodai Iijima, Kenichi Hirosawa, Fumihiko Kannari, Opt. Express, 23:15 (2015), 19382  crossref  mathscinet  isi  scopus
    7. Zilong Zhang, Qiang Liu, Mingming Nie, Encai Ji, Mali Gong, Appl. Phys. B, 2015  crossref  isi  scopus
    8. E. A. Khazanov, Phys. Usp., 59:9 (2016), 886–909  mathnet  crossref  crossref  adsnasa  isi  elib
    9. Tanaka H., Kariyama R., Iijima K., Kannari F., Appl. Optics, 55:23 (2016), 6193–6198  crossref  isi  elib  scopus
    10. Xu Sh., Gao Sh., Zheng Ch., Opt. Rev., 23:3 (2016), 382–385  crossref  isi  elib  scopus
    11. Tanaka H., Fujita Sh., Kannari F., Appl. Optics, 57:21 (2018), 5923–5928  crossref  isi  scopus
    12. Demirbas U., Cankaya H., Pergament M., Kaertner F.X., J. Opt. Soc. Am. B-Opt. Phys., 37:6 (2020), 1865–1877  crossref  isi  scopus
    13. He M., Chen Sh., Na Q., Luo Sh., Zhu H., Li Y., Xu Ch., Fan D., Chin. Opt. Lett., 18:1 (2020), 011405  crossref  isi  scopus
    14. Demirbas U., Thesinga J., Kellert M., Kaertner F.X., Pergament M., Opt. Mater. Express, 10:12 (2020), 3403–3413  crossref  isi  scopus
  • Квантовая электроника Quantum Electronics
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