References
- R. L. Byer, Quasi-phase-matched nonlinear interactions and devices. J Nonlinear Opt Phys Mater. 6, 549–592 (1997).
- M. House, P. D. Townsend, An introduction to methods of periodic poling for second-harmonic generation. J Phys D Appl Phys. 28, 1747–1763 (1995).
- L. I. Myers, R. C. Eckardt, C. C. Fejer, R. L. Byer, W. R. Bosenberg, J. W. Pierce, Quasi-phase-matched optical parametric oscillators in bulk periodically poled LiNbO3. J Opt Soc Am B. 12, 2102–2116 (1995).
- M. Yamada, Electrically induced Bragg-diffraction grating composed of periodically inverted domains in lithium niobate crystals and its application devices. Rev Sci Instrum. 71, 4010–4016 (2000).
- Shur VYa, E. L. Rumyantsev, E. V. Nicolaeva, E. I. Shishkin, R. G. Batchko, M. M. Fejer, R. L. Byer, Recent achievements in domain engineering in lithium niobate and lithium tantalate. Ferroelectrics. 257, 191–202 (2001).
- VYa Shur, A. R. Akhmatkhanov, I. S. Baturin, Micro- and nano-domain engineering in lithium niobate. Appl Phys Rev. 2, 40604 (2015).
- M. M. Fejer, G. A. Magel, D. H. Jundt, R. L. Byer, Quasi-phase-matched second harmonic generation: tuning and tolerances. IEEE J Quant Electr. 28, 2631–2654 (1992).
- A. L. Aleksandrovskii, O. A. Gliko, I. I. Naumova, V. I. Pryalkin, Linear and nonlinear diffraction gratings in lithium niobate single crystals with periodically poled domain structure. Kvant Elektr. 23, 657–659 (1996).
- M. Müller, E. Soergel, K. Buse, C. Langrock, M. M. Fejer, Investigation of periodically poled lithium niobate crystals by light diffraction. J Appl Phys. 97, 044102 (2005).
- S. M. Shandarov, A. E. Mandel, S. V. Smirnov, T. M. Akylbaev, M. V. Borodin, A. R. Akhmatkhanov, Shur VYa, Collinear and isotropic diffraction of laser beam and incoherent light on periodically poled domain structures in lithium niobate. Ferroelectrics. 496, 134–142 (2016).
- V. Gopalan, V. Dierolf, D. A. Scrymgeour, Defect-domain wall interactions in trigonal ferroelectrics. Annu Rev Mater Res. 37, 449–489 (2007).
- D. A. Scrymgeour, V. Gopalan, A. Itagi, A. Saxena, P. J. Swart, Phenomenological theory of a single domain wall in uniaxial trigonal ferroelectrics: Lithium niobate and lithium tantalate. Phys Rev B. 71, 184110 (2005).
- D. Lee, H. Xu, V. Dierolf, V. Gopalan, S. R. Phillpot, Structure and energetics of ferroelectric domain walls in LiNbO3 from atomic-level simulations. Phys Rev B. 82, 014104 (2010).
- V. A. Zhirnov, A contribution to the theory of domain walls in ferroelectrics. Soviet Physics JETP USSR. 8, 822–825 (1959).
- A. Yariv, P. Yeh, Optical waves in crystals. Wiley, New York, 1984.
- V. G. Dmitriev, G. G. Gurdzanyan, D. N. Nikogosyan, Handbook of Nonlinear Optical Crystals. Springer-Verlag, Berlin, 1991.
- L. P. Avakyants, D. F. Kiselev, N. N. Shchitkov, Measurement of the photoelastic coefficients of lithium niobate single crystals. Sov Phys Solid State. 18, 899–901 (1976).
- E. H. Turner, High-frequency electro-optic coefficients of lithium niobate. Appl Phys Lett. 8, 303–304 (1966).