Rohde & Schwarz, Rohde & Schwarz presents photonics-based ultra-stable tunable THz system for 6G at EuMW 2024

With the proof-of-concept for a system for 6G wireless data transmission based on a photonic THz communications link, Rohde & Schwarz is showcasing its contribution to state-of-the-art research for next generation wireless technologies at European Microwave Week in Paris. The ultra-stable, tunable THz system, developed within the 6G-ADLANTIK project, is based on frequency comb technology and enables carrier frequencies well beyond 500 GHz.
 

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Caption: Ultra-stable, tunable THz system based on frequency comb technology. (Image: TOPTICA Photonics AG)

On the path to 6G, it is important to create terahertz (THz) transmission sources that offer high signal quality, and that cover as wide a frequency range as possible. Combining optical technologies with electronics is one possible way to achieve this in the future. At EuMW 2024 in Paris, Rohde & Schwarz is showcasing the company’s contribution to state-of-the-art THz research within the 6G-ADLANTIK project. This project focuses on developing components for the THz frequency range based on photonic and electronic integration. Such THz components, yet to be developed, can then be used for innovative measurements and faster data transfers. These components will find applications not only in 6G communications but also in sensing and imaging. Funded by the Federal Ministry of Education and Research of Germany (BMBF) and coordinated by Rohde & Schwarz, 6G-ADLANTIK has brought together the partners TOPTICA Photonics AG, Fraunhofer-Institut HHI, Microwave Photonics GmbH, Technical University Berlin, and Spinner GmbH.

Ultra-stable tunable THz system for 6G based on photonics
The proof-of-concept shows an ultra-stable, tunable THz system for 6G wireless data transmission based on a photonic THz mixer which enables the generation of THz signals based on frequency comb technology. In this approach, a photodiode efficiently converts an optical beat signal derived from lasers with slightly different optical frequencies into an electrical signal through a photomixing process. The antenna structure surrounding the photomixer translates the oscillating photocurrent into a THz wave. The resulting signals can be modulated and demodulated for 6G wireless communications and can be tuned easily over a wide frequency range. The presented system also can be extended for component characterization with coherently received THz signals. A THz waveguide architecture simulation and design, as well as the development of ultra-low phase noise photonic reference oscillators, are also part of the scope of work for this project.

The ultra-low phase noise of the system is enabled by a comb-locked optical frequency synthesizer (OFS) in the TOPTICA laser engine. High-end instruments from Rohde & Schwarz are part of the setup: The R&S SFI100A wideband IF vector signal generator creates the baseband signals for the optical modulator with a sample rate of 16 GS/s. The R&S SMA100B RF and microwave signal generator generates a stable reference clock signal for the TOPTICA OFS system. The R&S RTP oscilloscope samples the baseband signal after the photoconductive continuous wave (cw) THz receiver (Rx) at a sample rate of 40 GS/s for further processing and demodulation of the 300 GHz carrier frequency signal, which will be shown at EuMW 2024.

6G and future frequency band requirements
6G will enable new application scenarios in industry, medical technology and everyday life. Applications like the metaverse and extended reality (XR) will bring about new requirements for latency and data transmission rates that are not met by current communications systems. Although the ITU World Radio Conference 2023 (WRC23) identified for further study new frequency bands in the FR3 spectrum (7.125 – 24 GHz) for the first commercial 6G networks to be launched in 2030, the sub-THz frequency band up to 300 GHz will eventually be indispensable to realize the full potential of virtual reality (VR), augmented reality (AR), and mixed reality (MR) applications.

Rohde & Schwarz exhibits its proof-of-concept of a THz system for 6G based on photonics along with its wide portfolio of RF and microwave test solutions at the European Microwave Week in Paris at booth 401L in Paris Expo Porte de Versailles from September 24 to 26, 2024.

In addition, Rohde & Schwarz co-hosts a full-day workshop at the European Microwave Conference (EuMC) on September 22, 2024 titled Photonic Technologies for Radio Frequency Applications, covering different aspects such as maturity, performance and costs of photonic RF technologies and their potential to compete with existing solutions.

For further information on test and measurement solutions from Rohde & Schwarz for 6G research and THz communications, visit

www.rohdeschwarz.com

Author: Laxman R