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飞秒激光刻划铌酸锂实现极化反转的实验研究
引用本文:王颖,倪晓昌,薛迎红,纪磊,桑梅,于建,王清月,张志刚. 飞秒激光刻划铌酸锂实现极化反转的实验研究[J]. 中国激光, 2005, 32(12): 688-1692
作者姓名:王颖  倪晓昌  薛迎红  纪磊  桑梅  于建  王清月  张志刚
作者单位:天津大学精密仪器与光电子学院教育部光电信息技术科学重点实验室,天津,300072
摘    要:采用飞秒激光加工制作周期性极化铌酸锂(PPLN)。实验中利用飞秒激光加工机的高精密加工的特性,在晶体+Z面刻划出周期性条纹,条纹周期以及深宽比可调,并加均匀的高压电场,通过改变晶体表面形状来影响晶体内部电场分布。实验观察到沿飞秒激光刻划方向有明显的极化现象,以及加工参量对极化反转的影响。该方案比纳秒激光刻划精度高,影响区小,可以做到更高深宽比且保持刻槽规则的形状。直接用激光刻划,无需掩模和光刻工艺.具有较大的灵活性,作为改进制作周期性极化铌酸锂的可选方案,更适合做各种新型器件。

关 键 词:非线性光学 周期极化铌酸锂 飞秒激光微加工 极化反转
文章编号:0258-7025(2005)12-1688-05
收稿时间:2005-01-10
修稿时间:2005-06-08

Experimental Study of Electric-Field Poling in LiNbO3 Crystal by Femtosecond Laser Carving
WANG Ying,NI Xiao-chang,XUE Ying-hong,JI Lei,SANG Mci,YU Jian,WANG Qing-yue,ZHANG Zhi-gang. Experimental Study of Electric-Field Poling in LiNbO3 Crystal by Femtosecond Laser Carving[J]. Chinese Journal of Lasers, 2005, 32(12): 688-1692
Authors:WANG Ying  NI Xiao-chang  XUE Ying-hong  JI Lei  SANG Mci  YU Jian  WANG Qing-yue  ZHANG Zhi-gang
Affiliation:School of Precision Instrument and Optoelectronics Engineering,, Tianjin University, Key Laboratory of Optoelectronics Information and Technical Science, Ministry of Education, Tianjin 300072, China
Abstract:A novel technique of periodically poling in femtosecond laser treated LiNbO_3(LN) crystal is reported.Because of the precision of the femtosecond laser machine,the width and depth of snicks can be controlled exactly.Then the high voltage electric field was operated on +Z side of the LiNbO_3 crystal.The visible poling pattern was observed by microscope.The machining parameter influence on the electric-field poling distributing in the crystal was investigated.Comparing with nanosecond laser carving,using femtosecond laser pulses the structure can be made more precisely with a larger deep-width ratio.The new technique does not need expensive and complicated mask and lithography,and periods of periodically poled lithium niobate(PPLN) can be adjusted flexibly.Although the mechanism of core formation is not clear yet,it would be a very useful technique in developing new type of periodically poled devices.
Keywords:nonlinear optics   periodically poled lithium niobate   femtosecond laser micromachining   electric-field poling
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