W-Band Wireless Prototype: Advancing Quantum-Resistant Communications  

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• August 6, 2025
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The SMARTY Project is progressing toward a secure, high-speed, short-range wireless link through the development of a W-band prototype (75–110 GHz). This forms a key component of a quantum-resistant transceiver tailored for edge environments where secure communication is required but wired infrastructure is not available. 

W-Band Prototype: Current Status 

The initial laboratory setup has demonstrated a unidirectional uplink (UL) over a wireless W-band path, while the downlink (DL) remains fiber-based. 

Transmitter architecture includes: 

• Coherent detection at the fiber input 

• A Uni-Traveling Carrier Photodiode (UTC-PD) generating the W-band signal by optical heterodyning 

• A Medium Power Amplifier (MPA) and horn antenna for RF transmission 

Receiver chain includes: 

• A horn antenna and Low Noise Amplifier (LNA) 

• An Envelope Detector (ED) for amplitude demodulation 

• A Mach-Zehnder Modulator (MZM) to convert the received signal back to the optical domain 

Tests with a 1.3 Gbps On-Off Keying (OOK) signal over 80 GHz show promising signal integrity, with clean eye diagrams at the output of the envelope detector. Current link distance is ~0.5 meters, limited by the absence of the LNA in the downlink. 

Next Steps 

1. Bidirectional Wireless Communication: 
   The system will be upgraded to support full bidirectional transmission. This will be achieved via frequency multiplexing, a method commonly used in mobile and optical networks. 
   • Uplink: 75–92 GHz 
   • Downlink: 93–110 GHz

2. Antenna Architecture: 
   Two configurations are under evaluation: 
   • Four-antenna setup (two per direction) 
   • Two-antenna setup using circulators to handle simultaneous TX/RX, with attention to minimizing coupling between transmitter and receiver paths 

3. Encryption and Modulation Enhancements: 
   • Integration of AES-256 encryption for secure communication
   • Investigation of phase modulation schemes (e.g., QPSK), contingent on implementing a laser phase-locking mechanism 

4. Extended Range: 
   • LNA integration and improved antenna modules will support distances of 5–10 meters, aligning with target use cases such as field-deployed edge devices. 

This prototype lays the foundation for quantum-resilient wireless links applicable to smart mobility, defense, and secure IoT deployments. 

📡 To follow progress and explore technical deliverables, visit: 
https://www.smarty-project.eu