Memory-Free Quantum Radar & Sensing
Next-generation detection, identification, and navigation built for contested environments.
Bandelier’s radar and sensing platform represents a breakthrough in memory-free quantum radar, engineered to deliver long-range, low-signature sensing where classical approaches fall short. Built on advanced photonic techniques invented at Los Alamos National Laboratory.
Bandelier’s quantum radar achieves exceptional sensitivity even at low photon counts, enabling detection beyond 100 kilometers while maintaining a secure, non-backscattering signature. This architecture allows raw optical returns to be transformed through coherence-based visibility processing into high-fidelity, retrievable target images, supporting reliable identification in contested or GPS-denied environments.
Designed for mobility and field deployment, this technology provides next-generation quantum sensing solutions that saves lives and enhances early threat awareness for national security operators.
Key Features
Quantum-enhanced detection and ranging
Delivers exceptional sensitivity and target fidelity where classical radar is degraded or ineffective.
Resilient in GPS-denied and high-interference environments
Maintains precision operation through jamming, clutter, and electromagnetic attack.Ultra-low observability
Photonic signal architecture enables low-probability-of-intercept operation for survivability in contested missions.Scalable and platform-agnostic
Deployable on airborne systems, ground vehicles, maritime platforms, and space assets.Stealth-material and low-RCS target detection
Identifies next-generation threats designed to evade conventional sensors.Cross-sector application potential
Foundational technology for secure quantum communications, medical imaging, and infrastructure diagnostics.
