Core Technology

The Quantum Behindthe Sensing

At QuBeats, we offer a comprehensive suite of quantum sensing and metrology products designed to deliver unmatched precision and performance across various applications.

Our innovative solutions harness the principles of quantum mechanics to meet the rigorous demands of industries such as healthcare, telecommunications, environmental monitoring, and research.

Atomic Magnetometry (Vapor-Cell OPM)

The Industry Standard for Sub-Atomic Sensitivity.

We utilize laser-polarized alkali vapor to detect magnetic signatures at the ultrasensitive picotesla (pT) and femtotesla (fT) scale for biomagnetism, geophysics, and magnetic navigation.

Applications:

BIOMEDICALGEOPHYSICSNAVIGATION

SERF and Mx regimes

SERF mode delivers picotesla sensitivity in shielded environments for biomagnetism, while Mx mode operates in Earth's field with active compensation for navigation on moving platforms.

Compact laser systems

Integrated distributed-feedback and VCSEL sources with thermal stabilization eliminate bulky external lasers, enabling field-deployable sensor heads.

Coherence control

Advanced pulse sequences and feedback loops maintain atomic coherence, suppressing noise and drift across varying environmental conditions.

Shielding approaches

Modular magnetic shields, gradiometry configurations, and active nulling enable operation in high-noise environments without sacrificing sensitivity.

Solid-State Quantum (NV-Diamond)

Radiation-Hardened Sensing for Extreme Environments.

Leveraging nitrogen-vacancy color centers in diamond for wide dynamic range, vector magnetometry, and radiation-tolerant operation in space and extreme environments to provide vector magnetometry that is physically indestructible.

Applications:

SPACEDEFENSEINDUSTRIAL

Defect engineering

Controlled nitrogen and vacancy implantation with optimized annealing creates high-density, uniformly distributed NV centers in synthetic diamond.

Space-grade sensors

Radiation tolerance validation, thermal cycling testing, and vacuum-compatible packaging designed for LEO, GEO, and lunar missions.

Vector readout

Four crystallographic orientations of NV centers enable simultaneous three-axis magnetic field reconstruction from optically detected magnetic resonance (ODMR) spectra.

Atomic RF (Rydberg Platforms)

Antenna-free Radio Frequency Intelligence.

Atom-based electric-field sensors. By exciting atoms to "Rydberg states," we turn the atoms themselves into the antenna. No metal, no interference, no calibration needed. Useful for for passive RF detection, spectrum awareness, and electromagnetic interference mapping without traditional antennas.

Applications:

TELECOMSPECTRUM INTELLIGENCEELECTRONIC WARFARE

Atomic RF antennas

Rydberg atoms in highly excited states act as self-calibrated antennas, eliminating metal conductors and enabling broadband RF reception from MHz to THz.

E-field calibration

Direct electric-field readout traceable to fundamental constants provides SI-unit calibration without external reference standards or periodic recalibration.

QuBeats Fusion (Data Intelligence)

The Bridge Between Quantum Physics and Real-World Navigation.

Quantum sensors are the extremely sensitive instruments, but they are "blindly" sensitive. They detect everything from a submarine to the drone’s own battery. Our Fusion Stack combines quantum sensor data with classical IMUs, GNSS data, and uses AI/ML algorithms to suppress noise, compensate drift, and isolate signals from noise through magnetic map-matching.

Applications:

AUTONOMOUS SYSTEMSSTRATEGIC LOGISTICS