Investigation of practical application of QKD in securing short-range wireless communication between a terminal such as an Automatic Teller Machine (ATM) and a handheld device (e.g. mobile phone). This quantum security model can be extended to mobile phone payment and other indoor wireless applications. Both partners are working together to develop a flexible platform for future quantum wireless technology.
In this section
- UKIQL: Enabling a data centre-to-data centre quantum link between UK and Ireland via a low-loss submarine optical fibre
- Ground-based entanglement transmitter for the Canadian QEYSSAT mission
- QTRAX (A Pilot Field-Deployment of Continuous Variable Quantum Key Distribution over Track-Side Fibre)
- Twi-Fi: Enhanced Twin-Field Quantum Key Distribution
- QPID: UKQNtel Pilot Implementation and Demonstrator
- HiQ – QKD on High Altitude Platforms: Proof of Concept & Demonstration
- QuID – Entanglement-Based Token for Quantum PIN IDentification
- Fibre-coupled Room Temperature Single Photon Sources
- Integrated Quantum Key Distribution and fast Optical Code scrambling for secure Gbps data transmission
- Measurement Device Independent QKD
- Continuous Variable-QKD
- CubeSat QKD and Groundstations
- Flexible Quantum Wireless System
- Frequency Down-Conversion to Telecom Wavelengths of On-Demand Indistinguishable Single Photons from a Quantum Dot
- High Speed Encrypted Optical Communications System
- Realistic Threat Models for Satellite QKD
- Satellite Visibility Simulator
- Towards Assurance/ Certification of Physical Quantum Random Number Generators
- Quantum Ambassadors
- Quantum Network Token Schemes
- Quantum N.O.D.E (Network Operational Device rEceiver)
- Wide Angle Receivers for Long-Distance Free-Space QKD
- QCHAPS – Quantum Communications & HAPS: A Feasibility Study
- Long-distance quantum key distribution with on-demand single photons in the telecom-C band
- 3D Photonic Components for Quantum Optical Communications
