Optik | 2021
A narrowband dual-polarization filter based on photonic crystal fiber with Au-Ag double-layer films
Abstract
Abstract A narrowband dual-polarization filter based on photonic crystal fiber (PCF) with Au-Ag double-layer films is proposed. The cladding of PCF is composed of three layers of air holes, and Au-Ag double-layer films are coated on two symmetrical air holes to excite surface plasmon resonance (SPR) effect. The special mechanism of the Au-Ag double-layer films takes advantage of the narrower full width at half maximum (FWHM) of silver. On the other hand, gold is used to protect the silver from oxidation and improve the stability of the filter, and can also enhance SPR effect. The simulation results show that the dual-polarization filter with double-layer metal films has higher resonance absorption and better spectra than that with the single-layer metal film. When the thickness of the double-layer metal films is 22.5\xa0nm (the thickness of silver film is 18\xa0nm), the confinement loss of dual-polarization filter at 1430\xa0nm is achieved to 64.08\xa0dB/cm (y-pol core mode) and at 1530\xa0nm is achieved to 37.26\xa0dB/cm (x-pol core mode). The wavelength range of crosstalk (CT) greater than 20\xa0dB and less than -20 dB are 1410 nm-1450 nm and 1510-1550\xa0nm for the device length of 10\xa0mm, respectively. The CT is achieved 555.07\xa0dB and -321.54\xa0dB at the wavelength of 1430\xa0nm and 1530\xa0nm, respectively. These characteristics show that the filter has excellent performance, and will become a suitable candidate for a narrowband polarization filter.