Title :
Optical circular-polarization modulator employing tilt-poled electrooptic polymers
Author :
Yang, Jianyi ; Zhou, Qingjun ; Jiang, Xiaoqing ; Wang, Minghua ; Wang, Yuelin ; Chen, Ray T.
Author_Institution :
Dept. of Inf. & Electron. Eng., Zhejiang Univ., Hangzhou, China
Abstract :
A polymer-based integrated circular-polarization modulator (CPM) is demonstrated in this paper. Tilted poling is adopted to achieve polarization conversion in the electrooptic (EO) polymeric waveguide and then realize the power balance between transverse electric and transverse magnetic modes. Detailed analysis and experiments on polarization conversion are presented. The tensor nature of poled polymeric materials is used to generate the phase difference. Contact poling is applied to perform tilted poling and activate the EO effect of polymeric materials. With appropriate voltage control, the polarization state of the output from the CPM can alternate between the left and right-hand-circular states. The extinction ratios at the 45°- and -45°-tilted linearly polarized states are larger than 25 dB.
Keywords :
electro-optical effects; electro-optical modulation; integrated optics; integrated optoelectronics; light polarisation; optical fabrication; optical polymers; optical waveguides; 45-°-tilted linearly polarized states; contact poling; electrooptic polymeric waveguide; extinction ratio; left-hand circular states; optical circular-polarization modulator; polarization conversion; polarization state; poled polymeric materials; polymer-based integrated circular-polarization modulator; polymeric materials; right-hand circular states; tensor nature; tilt-poled electrooptic polymers; tilted poling; transverse electric modes; transverse magnetic modes; Electrooptic effects; Electrooptic modulators; Electrooptical waveguides; Magnetic analysis; Magnetic materials; Optical modulation; Optical polarization; Optical polymers; Optical waveguides; Tensile stress; EO; Electrooptic; integrated optics; modulation; optical polarization; optical waveguide; polymer;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2004.832432
