Project Overview
This open-source research project investigates quantum phenomena in networked systems, building on recent breakthroughs in quantum teleportation over conventional internet infrastructure.
Our project focuses on three key quantum phenomena:
- Quantum Teleportation: State transfer between spatially separated systems
- Temporal Information Effects: Correlation patterns that exhibit temporal anomalies
- Information Clustering: Emergence of coherent information structures across network nodes
The interactive visualization on the left represents our system architecture. Click on any node to learn more about that component.
Recent Research Breakthroughs
In December 2024, Northwestern University engineers successfully demonstrated quantum teleportation over conventional fiber optic cables carrying regular internet traffic. This groundbreaking achievement showed that quantum and classical communications can coexist on the same physical infrastructure.
Our research expands on this breakthrough by investigating not only quantum teleportation but also temporal effects and information clustering phenomena that emerge in such systems.
Project Goals
- Develop a comprehensive software architecture for quantum network research
- Implement practical quantum teleportation protocols over conventional networks
- Investigate temporal anomalies in quantum information transfer
- Explore clustering patterns across quantum-connected network nodes
- Create visualization tools that make quantum phenomena accessible
Component Details
Select a component in the visualization to see details.