Fractional optical Hilbert transform using phase shifted fiber Bragg gratings

In this paper, we demonstrate that an arbitrary order (including both integer and fractional orders) Hilbert transform (HT) of an input optical waveform can be implemented by a simple and practical phase-shifted fiber Bragg grating (PSFBG) operated in reflection mode. The PSFBG consists of two concatenated identical uniform FBGs with a proper phase shift between them. It is proved that both the phase shift of the FBGs and the apodizing profile of the refractive index modulation determine the order of the transform. The simulation results show that the device can perform arbitrary fractional Hilbert transform (FHT) with excellent accuracy for input signals with up to hundreds of GHz bandwidth using feasible FBG structures.

Research highlights
► Arbitrary fractional Hilbert transform using phase-shifted FBGs was demonstrated.
► The space-to-frequency-to-time mapping was used in the FBG design.
► The technique is valid for input signals with up to hundreds of GHz bandwidth.