# Distributed Deployment and Dual-Frequency Concepts to Strengthen Sub-THz Wireless Systems

**Authors:** Liesbet Van der Perre, Gilles Callebaut, Thomas Eriksson, Muris Sarajlic, Christian Fager, Fredrik Tufvesson, Buon Kiong Lau, and Erik G. Larsson

arXiv: 2509.00492 · 2025-09-03

## TL;DR

This paper introduces a distributed sub-THz wireless system using polymer microwave fibers and dual-frequency operation to enhance coverage, reliability, and integration with lower-frequency control systems.

## Contribution

It proposes a novel distributed architecture with polymer microwave fibers and dual-frequency tandem operation for improved sub-THz wireless deployment.

## Key findings

- Distributed architecture reduces path loss and blocking.
- Dual-frequency tandem provides control and fallback.
- Enables cost-effective, high-performance connectivity.

## Abstract

The vast bandwidth available at sub-THz frequencies holds great promise for high-speed wireless access, precise localization, and advanced sensing applications. However, fundamental physical constraints and technological limitations make the deployment of reliable sub-THz networks challenging. We propose a new paradigm for sub-THz coverage by transmitting the RF signals over polymer microwave fibers (PMFs) that interconnect low-complexity radio units (RUs) in a daisy-chain configuration. The distributed architecture ensures that user equipments (UEs) connect to RUs in their proximity, reducing path loss and mitigating blocking. The RUs leverage low-complexity, compact integrated antenna modules. Additionally, dual-frequency tandem operation is proposed, integrating the sub-THz system with a sub-10 GHz system that provides control signalling and a robust fallback solution for the sub-THz system. This proposed tandem architecture can open up the full potential of sub-THz technology and paves the way to cost- and energy-efficient, high-performance, real-time connectivity in dynamic environments.

## Full text

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## Figures

12 figures with captions in the complete paper: https://tomesphere.com/paper/2509.00492/full.md

## References

15 references — full list in the complete paper: https://tomesphere.com/paper/2509.00492/full.md

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Source: https://tomesphere.com/paper/2509.00492