06 October, 2023
Ultrabroadband terahertz-band communications with self-healing bessel beams
The large available bandwidth at sub-terahertz and terahertz frequencies
has the potential to enable very high data rates for wireless
communications. Moreover, given the large electrical size of terahertz
antenna apertures, many future terahertz communication systems will
likely operate in the near field. However, due to their reliance on
highly directional beams, terahertz systems are susceptible to blockage.
Here, we propose using Bessel beams to overcome issues caused by
blockage due to their diffraction-free nature and self-healing
properties in the near field. We compare the performance of
information-bearing Bessel beams and Gaussian beams with and without an
obstacle. We later discuss the use of reconfigurable intelligent
surfaces to construct terahertz Bessel beams. Finally, we propose a
metric to quantify the quality of imperfectly generated terahertz Bessel
beams and explore their ability to self-heal. The results demonstrate
that Bessel beams are an attractive option for near-field terahertz
communications, especially when mitigating the effects of partial
blockage.