Panteleimon-Konstantinos Chartsias scite author profile

Optoelectronic technology is expected to be the cornerstone of sub-THz communication systems, enabling access to and use of the vast frequency resources found in this portion of the spectrum. In this work we demonstrate a photonics-enabled sub-THz wireless link operating in real-time settings, using a PIN-PD-based THz emitter, and a THz receiver based on an ultra-fast photoconductor. The real-time generation and detection of the information signal is performed by an intermediate frequency (IF) unit based on a commercially available mmWave platform, operating at 1.6 GBaud. The evaluation of our setup takes place on two phases. Firstly, a homodyne scenario is demonstrated, where the same pair of lasers is used at the transmitter and receiver side. Secondly, we demonstrate a heterodyne scheme, employing optical phase locking techniques at the receiver. Errorfree operation was achieved in both scenarios at a bit rate of 3.2 Gb/s, over 1 m of free-space with ambient air. The broadband characteristics of our setup were validated, achieving error-free transmission over a 0.22 THz range, spanning from 90 up to 310 GHz. Finally, the stability of our real-time link was successfully demonstrated, showing stable SNR performance at the receiver with adaptive capabilities, over a time period of 5 min and 22 sec.

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Media Services in Dense, Static and Mobile Environments Leveraging Edge Deployments

Xezonaki

Psaromanolakis

Chartsias

et al. 2023

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Breaking the Access Technologies Silos by Enhancing MAC and RRM in 5G+ Networks

Frascolla

Okyere

Mumtaz

et al. 2018

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Terahertz Technologies to Deliver Optical Network Quality of Experience in Wireless Systems Beyond 5G

Boulogeorgos¹,

Alexiou²,

Merkle³

et al. 2018

Preprint

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