Tunable polarization optical delay line based on a linear chirped fiber Bragg grating

## Abstract A new prototype of a compact and power‐efficient tunable dispersion compensator is demonstrated. To our acknowledge, this is the first time a tunable dispersion compensator using nonlinearly chirped fiber Bragg grating, coated with on‐fiber uniform metal heater, has been realized. A rem

A photonic microwave true-time delay utilizing an asymmetrically tapered chirped fiber Bragg grating whose cladding is partially side-polished is proposed and demonstrated. A resistive heating electrode is incorporated on top of the tapered fiber in order to control the time delay continuously witho

## Abstract Chromatic dispersion effect on a bandpass microwave photonic filter is presented using a tunable linearly chirped fiber Bragg grating (LCFBG). The 3‐dB bandwidth of the LCFBG is shifted nonlinearly with fixed centre wavelength to change its chromatic dispersion value. The bandpass notch

## Abstract A simple fiber‐Bragg‐grating (FBG) sensor system based on a linear‐cavity fiber laser is proposed and experimentally demonstrated. The lasing wavelength shift resulting from the temperature variation on this sensing element is discriminated by two FBGs. These two FBGs, acting as wavelen

relocated from 1.86 to 1.97 GHz whilst the upper zero varies from 2.24 to 2.04 GHz. ## 3. MEASURED RESULTS To verify the proposed approach, a filter is designed at f 0 ϭ 2 GHz with 3.5% FBW and R ϭ 0.64 using the dimensions as reported in the last section. The substrate used is RO4003 with relativ

## Abstract The compensation effect of the fiber‐type polarization controller (FPC) for the intrinsic polarization‐dependent loss (PDL) of the magneto‐optic fiber Bragg grating (MFBG) is experimentally investigated and the experimental results are explained by the theoretical model of MFBG presente