Quantum information science research is advancing on multiple fronts:
Quantum computing pursues error correction and improved qubit architectures;
Quantum networking develops repeaters to maintain coherence over distances;
Quantum sensing leverages quantum effects for ultra-precise measurements;
Materials research explores exotic quantum states for next-generation technologies;
Algorithm development extends into quantum machine learning;
Quantum provides enhanced detection capability for stealth targets through quantum illumination, which creates entangled photon pairs and can identify return signals even in very noisy environments.
Quantum communication offers many advantages over classical communication: security, tamper-evidence, teleportation, precise timing synchronization, etc.
Members of the laboratory are engaged with the quantum community to develop the next breakthrough.