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Proceedings Paper

Theoretical analysis of optical poling and frequency doubling effect based on classical model
Author(s): Xi Feng; Fuquan Li; Aoxiang Lin; Fang Wang; Xiangxu Chai; Zhengping Wang; Qihua Zhu; Xun Sun; Sen Zhang; Xibo Sun
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Paper Abstract

Optical poling and frequency doubling effect is one of the effective manners to induce second order nonlinearity and realize frequency doubling in glass materials. The classical model believes that an internal electric field is built in glass when it’s exposed by fundamental and frequency-doubled light at the same time, and second order nonlinearity appears as a result of the electric field and the orientation of poles. The process of frequency doubling in glass is quasi phase matched. In this letter, the physical process of poling and doubling process in optical poling and frequency doubling effect is deeply discussed in detail. The magnitude and direction of internal electric field, second order nonlinear coefficient and its components, strength and direction of frequency doubled output signal, quasi phase matched coupled wave equations are given in analytic expression. Model of optical poling and frequency doubling effect which can be quantitatively analyzed are constructed in theory, which set a foundation for intensive study of optical poling and frequency doubling effect.

Paper Details

Date Published: 5 March 2018
PDF: 10 pages
Proc. SPIE 10710, Young Scientists Forum 2017, 107103D (5 March 2018); doi: 10.1117/12.2317011
Show Author Affiliations
Xi Feng, Shandong Univ. (China)
Laser Fusion Research Ctr. (China)
Fuquan Li, Laser Fusion Research Ctr. (China)
Aoxiang Lin, Xi'an Institute of Optics and Precision Mechanics (China)
Fang Wang, Laser Fusion Research Ctr. (China)
Xiangxu Chai, Laser Fusion Research Ctr. (China)
Zhengping Wang, Shandong Univ. (China)
Qihua Zhu, Laser Fusion Research Ctr. (China)
Xun Sun, Shandong Univ. (China)
Sen Zhang, Laser Fusion Research Ctr. (China)
Xibo Sun, Laser Fusion Research Ctr. (China)

Published in SPIE Proceedings Vol. 10710:
Young Scientists Forum 2017
Songlin Zhuang; Junhao Chu; Jian-Wei Pan, Editor(s)

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