Temperature dependence of linear electrooptic coefficients r ₁₁₃ and r ₃₃₃ in lithium niobate

• Autorzy: Górski P. , Ledzion R. , Bondarczuk K. , Kucharczyk W.
• Konferencja: The Fifth International Conference on Solid State Crystals (ICSS-5 ) ; (5 ; 20-24.05.2007 ; Zakopane-Kościelisko, Poland)
• Języki publikacji: EN

Abstrakty

EN

A new method of determination of individual linear electrooptic coefficients is proposed. The technique is based on the dynamic polarimetric measurements and takes into consideration the temperature dependences of ordinary and extraordinary refractive indices. Results obtained for the electrooptic coefficients r ₁₁₃ and r ₃₃₃ in LiNbO₃ are presented. The coefficients are found to increase significantly within the considered temperature range 25-200°C. The temperature dependences of the intrinsic coefficients m ₁₁₃ and m ₃₃₃ defined in terms of the induced polarisation, are considered as well.

Słowa kluczowe

EN

linear electrooptic effect; intrinsic linear electrooptic effect; LiNbO3

• Wydawca: Stowarzyszenie Elektryków Polskich ; Polska Akademia Nauk ; Wojskowa Akademia Techniczna im. Jarosława Dąbrowskiego
• Czasopismo: Opto-Electronics Review
• Rocznik: 2008
• Tom: Vol. 16, No. 1
• Strony: 46--48
• Opis fizyczny: Bibliogr. 17 poz.

Twórcy

autor

Górski P.

autor

Ledzion R.

autor

Bondarczuk K.

autor

Kucharczyk W.

• Institute of Rhysics, Technical University of Łódź, 219 Wólczańska Str., 90-924 Łódź, Poland,

Bibliografia

• 1. G.G. Bentini, M. Bianconi, A. Cerutti, M. Chiarini, G. Pennestri, C. Sada, N. Argiolas, M. Bazzan, and P. Mazzoldi, "Integrated Mach-Zehnder micro-interferometer on LiNbO3", Opt. Laser. Eng. 45, 368-372 (2007).
• 2. N.J. Vasa, Y. Kawata, R. Tanaka, and S. Yokoyama, "Development of an electric field sensor based on second harmonic generation with electro-optic materials", J. Mater. Process. Tech. 185, 173-177 (2007).
• 3. C. Li and X. Cui, "An optical voltage and current sensor with electrically switchable quarter waveplate", Sensor. Actuat. A. 126, 62-67 (2006).
• 4. R. Ledzion, K. Bondarczuk, and W. Kucharczyk, "Temperature dependence of the quadratic electrooptic effect and estimation of antipolarization of ADP", Cryst. Res. Technol. 39, 161-164 (2004).
• 5. P. Górski, K. Bondarczuk, and W. Kucharczyk, "Temperature dependence of the electrooptic coefficients r22 and m22 in LiNbO3", Opto-Electron. Rev. 12, 459-461 (2004).
• 6. K. Chah, M.D. Fontana, M. Aillerie, P. Bourson, and G. Malovichko, "Electro-optic properties in undoped and Cr-doped LiNbO3 crystals", Appl. Phys. B67, 65-71 (1998).
• 7. F. Abdi, M. Aillerie, P. Bourson, M.D. Fontana, and K. Polgar, "Electro-optic properties in pure LiNbO3 crystals from the congruent to the stoichiometric composition", J. Appl. Phys. 84, 2251-2254 (1998).
• 8. B.C. Grabmaier, W. Wersing, and W. Koestler, "Properties of undoped and MgO-doped LiNbO3 correlation to the defect structure", J. Cryst. Growth 110, 339-347 (1991).
• 9. Landolt-Börnstein, High Frequency Properties of Dielectric Crystals, Vol. 30, edited by D.F. Nelson, Springer, Berlin, 2001.
• 10. M. Izdebski, W. Kucharczyk, and R.E. Raab, "Application of the Jones calculus for a modulated double-refracted light beam propagating in a homogeneous and nondepolarizing electro-optic uniaxial crystal", J. Opt. Soc. Amer. A21, 132-139 (2004).
• 11. M. Izdebski and W. Kucharczyk, "Application of the Jones calculus for Gaussian beams in uniaxial crystals", J. Opt. Soc. Amer. A23, 1745-1750 (2006).
• 12. U. Schlarb and K. Betzler, "Influence of the defect structure on the refractive indices of undoped and Mg-doped lithium niobate", Phys. Rev. B50, 751-757 (1994).
• 13. F.C. Pockels, Lerbuch der Kristalloptik, Teubner, Leipzig, 1906.
• 14. R.C. Miller, "Optical second harmonic generation in piezoelectric crystals", Appl. Phys. Lett. 4, 17-19 (1964).
• 15. G. Karapetyan, A.A. Kteyan, and R.A. Vardanyan, "Thermal reduction effect on Curie temperature of LiNbO3 ferroelectrics", Solid State Commun. 140, 474-476 (2006).
• 16. J.D. Zook, D. Chen, and G.N. Otto, "Temperature dependence and model of the electro-optic effect in LiNbO3", Appl. Phys. Lett. 11, 159-161 (1967).
• 17. M. DiDomenico Jr. and S. Wemple, "Oxygen-octahedra ferroelectrics. I. Theory of electro-optical and nonlinear optical effects", J. Appl. Phys. 40, 720-734 (1969).