Conversion efficiency of second harmonic generation in onedimensional photonic crystal based from isotropic material
Abstract
The investigation of second-harmonic generation in a one-dimensional photonic crystal was carried out. The calculation of the χ (2) – grating recording in a periodic system consisted of air and glass layers and secondharmonic generation in it was performed. The frequency conversion efficiency at different wavelengths of the first harmonic was estimated.
Keywords
one-dimensional photonic crystal,
second harmonic generation,
optical nonlinearity,
conversion efficiency
Supporting agencies: This work has been performed in the framework of Basic Research Program of Ministry of Education and Science of the Russian Federation (888/2014 102-GZ).
About the Authors
A. M. Gerasimov
South Ural State University
Russian Federation
Russian Federation
Chelyabinsk city – 454139
N. D. Kundikova
South Ural State University; The Institute of Electrophysics of the Ural Division of the Russian Academy of Sciences
Russian Federation
Russian Federation
Chelyabinsk city – 454139
Ekaterinburg city - 620016
Yu. V. Miklyaev
South Ural State University; The Institute of Electrophysics of the Ural Division of the Russian Academy of Sciences
Russian Federation
Russian Federation
Chelyabinsk city – 454139
Ekaterinburg city - 620016
D. G. Pikhulya
South Ural State University
Russian Federation
Russian Federation
Chelyabinsk city – 454139
M. V. Terpugov
South Ural State University
Russian Federation
Russian Federation
Chelyabinsk city – 454139
References
1. Zaporozhchenko R.G. Relation between Efficiency of Second Harmonic Generation and Spectral Properties of a One-Dimensional Photonic Crystal. Optics and Spectroscopy, 95(6), P. 976–982 (2003).
2. Zhao L.M., Li C., Zhou Y.S., Wang F.H. Multiple wavelength second-harmonic generation in onedimensional nonlinear photonic crystals. J. Opt. Soc. Am. B, 25(12), P. 2010–2014 (2008).
3. Sasaki Y., Ohmori Y. Phase-matched sum-frequency light generation in optical fibers. Appl. Phys. Lett., 39(6), P. 466–468 (1981).
4. Sasaki Y., Ohmori Y. Two-Wave Sum-Frequency Light Generation in Optical. IEEE Journal of Quantum Electronics, 18(4), P. 758–762 (1982).
5. Baranova N.B, Zel’dovich B.Y. Expanding the field of holography to multifrequency. JETP Letters, 45(12), P. 562–565 (1987).
6. Stolen R.H., Tom H.W.K. Self-organized phase-matched harmonic generation in optical fibers. Optics Letters, 12(8), P. 585–587 (1987).
7. http://ab-initio.mit.edu/wiki/index.php/Meep.
Review
For citations:
Gerasimov A.M., Kundikova N.D., Miklyaev Yu.V., Pikhulya D.G., Terpugov M.V. Conversion efficiency of second harmonic generation in onedimensional photonic crystal based from isotropic material. Nanosystems: Physics, Chemistry, Mathematics. 2014;5(3):374-377.
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