Hardware Demonstrators
ORAQL features five hardware demonstrator tracks, each advancing critical capabilities for scalable neutral atom quantum computing.
Demonstrator Tracks
1. Logical Qubit Continuous Operation
Lead: Harvard - Lukin Group
Focus on sustained logical qubit operation using reconfigurable atom arrays with real-time error correction.
2. Fast Readout
Lead: MIT - Vuletić Group
Developing high-speed, high-fidelity atomic state readout using cavity-enhanced detection.
3. Dual-Species Architectures
Lead: Harvard - Ni & Semeghini Groups
Exploring heterogeneous atomic species for specialized computational and memory roles.
4. Scalable Photonic Control
Lead: MIT - Englund Group
Integrated photonic solutions for scalable optical addressing and control.
5. Quantum Networking
Lead: Distributed Teams
Connecting quantum processors through photonic links for distributed quantum computing.
Key Publications
Recent advances from ORAQL hardware teams are highlighted on the homepage and documented in individual demonstrator pages.
Technical Specifications
The flagship ORAQL system targets:
- 400 logical qubits with error-corrected operation
- 1-100 megaquops circuit depth capability
- ~40,000 physical qubits using surface code distance ≥9
- Gate fidelities: 1Q = 99.99%, 2Q = 99.9%