Abstract
A widely tunable single bandpass microwave photonic filter (MPF) based on Brillouin-assisted optical carrier recovery in a highly nonlinear fiber (HNLF) with only one optical filter is proposed and experimentally demonstrated. The fundamental principle lies in the fact that the suppressed optical carrier of the phase modulated optical signal could be recovered by the stimulated Brillouin scattering (SBS) amplification effect. When phase modulated optical signals go through an optical filter with a bandpass response, the optical carrier and the upper sidebands suffer from the suppression of the optical filter because they fall in the stopband of that. In our system, the optical carrier could be recovered by the SBS operation around 38 dB. The MPF is achieved by one-to-one mapping from the optical domain to the electrical domain only when one of phase modulated sidebands lies in the bandpass of the optical filter. It shows an excellent selectivity with a 3-dB bandwidth of 170 MHz over a tuning frequency range of 9.5-32.5 GHz. The out-of-band suppression of the MPF is more than 20 dB. Moreover, the MPF shows an excellent shape factor with 10-dB bandwidth of only 520 MHz. The frequency response of the MPF could be widely tuned by changing the frequency difference between the frequency of the optical carrier and the center frequency of the bandpass of the optical filter. A proof-of-concept experiment is carried out to verify the proposed approach.
Highlights
Microwave photonic filters (MPF) have attracted considerable attention in the past few years in the field of modern radar and warfare systems because of its potentially attractive features such as light weight, low loss, wide bandwidth, large tunability, flexible reconfigurability, and immunity to electromagnetic interference (EMI) compared with microwave filters realized in the electrical domain [1,2,3]
We propose a new method to achieve a widely tunable single bandpass MPF based on Brillouin-assisted optical carrier recovery in a highly nonlinear fiber (HNLF)
The out-of-band suppression is as large as 20 dB
Summary
Microwave photonic filters (MPF) have attracted considerable attention in the past few years in the field of modern radar and warfare systems because of its potentially attractive features such as light weight, low loss, wide bandwidth, large tunability, flexible reconfigurability, and immunity to electromagnetic interference (EMI) compared with microwave filters realized in the electrical domain [1,2,3]. The single bandpass MPF has been achieved based on a fiber Mach-Zehnder interferometer (MZI) in conjunction with an intensity modulator or a phase modulator [7, 8] The latter can be used to suppress the baseband resonance of its periodic spectral response. The above mentioned approaches free from the periodic spectral response which limits the bandwidth of the microwave signal to be processed In these systems, complicated structures or extra special optical components are generally required. The experimental results show that the frequency response of the single bandpass MPF is widely tunable over a frequency tuning range from 9.5 GHz to 32.5 GHz without changing its shape by adjusting the wavelength of the optical carrier. The out-of-band suppression is as large as 20 dB
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