Add to BibSonomy
Abstract
Based on the electrically controlled birefringence effect in liquid crystal materials, an effective method for spatially separating azimuthally and radially polarized beams from non-polarized incident light waves is proposed. The radially polarized beam was highly converged by using a microhole-patterned electrode and a planar photo-alignment layer to shape the initial liquid-crystal radial alignment and a gradient refractive index distribution with central axial symmetry after applying a voltage signal. Due to the intrinsic polarization sensitivity of nematic liquid-crystal materials, the shaped gradient refractive index only applies to extraordinary light waves, which then converge into a spot. Thus, the azimuthally and radially polarized beams are effectively separated. The proposed method demonstrates some advantages, such as low cost, miniaturization, and easy fabrication and integration with other functional devices. Thanks to the wideband electrically controlled birefringence of liquid-crystal materials, this light-wave manipulation to spatially separate azimuthally and radially polarized beams can also be performed over a wide wavelength range.
© 2022 Optica Publishing Group
Full Article | PDF ArticleMore Like This
Mingce Chen, Mao Ye, Zhe Wang, Taige Liu, Chai Hu, Kewei Liu, Jiashuo Shi, and Xinyu Zhang
Opt. Lett. 47(19) 5036-5039 (2022)
Yide Yuan, Jin Xie, Yongziyan Ma, Dan Luo, Fan Fan, and Shuangchun Wen
Opt. Lett. 47(4) 957-960 (2022)
ShiNa Tao, ZhiXiong Shen, HongGuan Yu, HuaCai Wang, ShiJun Ge, and Wei Hu
Opt. Lett. 47(7) 1650-1653 (2022)