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Quantum Magnetometers
Compact vapor-cell OPMs delivering femtotesla to picotesla range sensitivity for navigation, mineral exploration, and biomedical imaging.
QuBeats
Quantum Sensors with
Atomic Precision.
Lab-grade accuracy, engineered for the field.
Advanced QuantumSensing Solutions
We deliver robust navigation for GNSS-denied environments, magnetic anomaly detection, and high sensitivity electromagnetic spectrum awareness solutions. Our atomic sensors are compact, power-efficient, and cost-effective packages.
Passive sensing architecture ensures zero-emission stealth, enabling covert operations without revealing platform location.
WHAT WE MAKE
Products at a Glance
RF Sensing Platforms
Rydberg atom-based RF receivers with ultra-wide bandwidth for electronic support measures and secure communications.
Navigation Engine & Sensor Fusion
Real-time fusion of magnetic sensor data with IMU data and onboard edge compute for magnetically aided inertial navigation systems (MAINS).
Magnetic Navigation System
Integrated quantum magnetometer with inertial sensors for absolute position fixes and anomaly mapping.
Optical Atomic Clocks
Warm-vapor optical clocks delivering orders-of-magnitude better stability than conventional CSACs.
Command, Calibration & Analytics
Mission software for multi-sensor networks with auto-calibration, anomaly tagging, and fleet-wide health monitoring.
Why Qubeats
Why Customers Choose QuBeats
Array First
Architected for multi-sensor coherence and true gradiometry—not just single-probe specs.
Field-Ready Packaging
Rugged enclosures, low-SWaP electronics, and shield-aware mechanicals.
Fusion DNA
Native IMU/GNSS integration plus magnetic map-matching for resilient PNT.
Made in India, Built for the World
Local supply chain + global research partnerships.
From Benchtop to Fleet
The same core sensors scale from lab validation to vehicle pods and space payloads.
APPLICATIONS
Where Our Sensors Operate
Navigation & PNT
Magnetic map-matching and drift-free dead-reckoning for GNSS-contested or spoofed operations.
Defense & Security
Maritime anomaly detection, UXO search, tunnel and void finding, and RF sensing in demanding environments.
Space
Constellation-class magnetometry, space weather monitoring, and on-orbit diagnostics with radiation-tolerant designs.
Georesource & Civil
Mineral exploration, subsurface mapping, and structural health monitoring using high-sensitivity quantum field sensors.
Biomedical
Wearable OPM–MEG and MCG platforms for brain and cardiac mapping in research and clinical translation.
Key Features
Technical Highlights
pT–fT sensitivity class (application-dependent) with vector and gradient operating modes.
Low-SWaP modules with configurable baselines for full-tensor gradiometry.
Real-time interference mitigation and hard-iron/soft-iron compensation for deployed platforms.
Turn-key calibration flows and SDKs for C++/Python/ROS-based integration.
Roadmap for radiation tolerance and thermal cycling across space and maritime environments.
Customers & Academic Associations
Partners And Affiliations
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Collaborate with Qubeats
Whether you need a custom array, MagNav drop-in, or biomedical tile, the team co-designs sensor architecture, mechanics, and fusion stack for your mission.