Frequency response of a tunable fiber-optic notch filter using a dispersive device

## Abstract We experimentally demonstrate a novel tunable microwave notch filter using a fiber loop and cascaded fiber Bragg gratings (FBGs), where the filter response can be easily tuned by adjusting the wavelength of the input light. The proposed notch filter is very simple to realize. The requir

## Abstract We propose a tunable photonic microwave notch filter using a multi‐wavelength optical source. Two peak wavelengths are generated using a reflective semiconductor optical amplifier (RSOA) self‐injection, locked by two external fiber Bragg gratings (FBGs). The time delay required for the

## Abstract The tunable property of a side‐polished optical fiber filter developed using a polymer dispersed liquid crystal (PDLC) is investigated. The thermo‐sensitive characteristic of the PDLC provides the new type of tunable side‐polished optical fiber filter with a desirable free spectral rang

## Abstract With the continually improving performance of long‐distance optical communication systems, it becomes important to administer and control wavelength dispersion of the optical fiber. In this paper, a method of measurement of the group velocity dispersion (GVD) of an optical fiber using o

For the first time, we present results on an all-fiber ( ) acousto-optic phase modulator using aluminum nitride AlN piezoelectric coating. Finite-element analysis has been employed to determine the response of the modulator from 10 kHz to 600 MHz. At frequencies higher than 28 MHz, the response is d

An all-fiber antenna using piezoelectric polymer-coated circular core D-fiber has been characterized using finite-element analysis. The response of the D-fiber antenna was determined o¨er a wide frequency range from 1 to 600 MHz. The modeling predicts an electricfield-induced phase shift of 0.00173