Tunable terahertz photodetector using ferroelectric-integrated graphene plasmonics for portable spectrometer

Terahertz (THz) detector has great potential for use in imaging, spectroscopy, and communications due to its fascinating interactions between radiation and matter. However, current THz detection devices have limitations in sensitivity, operating frequency range, and bulky footprint. While recent ferroelectric-integrated graphene plasmonic devices show promise in overcoming these limitations, they are not yet extended to the THz range. Here, we propose a wavelength-sensitive terahertz detector that uses a single layer graphene integrated onto the ferroelectric thin film with patterned polarization domains. This device works at room temperature, with high responsivity and detectivity by coupling graphene plasmons with THz frequencies through spatial modulation of carrier behaviors using ferroelectric polarization, without requiring additional local electrodes. By reconfiguring an interweaving squared ferroelectric domain array with alternating upward and downward polarizations to highly confine graphene surface plasmon polaritons, our device achieves an ultrahigh responsivity of 1717 A W-1 and a normalized detectivity of 1.07*10^13 Jones at a resonance frequency of 6.30 THz and a 0.3 V bias voltage. We also show that the device makes possible for spectrum reconstruction application of portable spectrometer combining the mathematical algorithms.
Comment: 17 pages, 5 figures