Mid-infrared polarization rotator based on a SiN-CaF hybrid plasmonic waveguide with asymmetric metal claddings.

In this paper, a - hybrid plasmonic waveguide (HPW) with an asymmetric metal cladding is designed for the mid-infrared polarization rotator (PR). The mode characteristics and polarization rotation performances of the - HPW-based PR are simulated by using the finite element method. Operating at the wavelength of 3.5 µm, the polarization conversion efficiency between two polarization modes (PM 1 and PM 2) is larger than 99% at a - HPW length of 104 µm. The - HPW-based PR maintains good polarization rotation performances within fabrication tolerances from -10 to 10 nm. The polarization rotator based on the - HPW paves the way to achieve integrated waveplates, driving many important optical functions from free space onto a chip.