Precision in Every Pulse
QChronyx Systems is India's first indigenous quantum navigation company — building atomic vapor cells, space-grade atomic clocks, and GPS-denied inertial navigation systems for civil, space, and critical infrastructure.
Each product builds on the previous — a self-funding roadmap from vapor cells to full quantum navigation.
India's first indigenous Rb + Xe co-magnetometer vapor cells for atomic clocks, magnetometers, and MEG/MRI applications.
Chip-Scale Atomic Clock — 17 cc, <120 mW, stability 10⁻¹¹/s. Targeting GEO and LEO satellites, 5G/6G telecom, and critical infrastructure timing.
NMR Atomic Co-Magnetometer for GPS-denied navigation. 20×20×20 cm, portable, 10 Hz–1 kHz update rate. 10× smaller and 5× cheaper than cold-atom peers. No cryogenics.
India is 100% import-dependent on atomic clocks today. We are changing that.
India's first indigenous quantum component foundry. No domestic supplier exists for Rb+Xe co-magnetometer cells, giving QChronyx first-mover advantage across all three products.
Import-controlled quantum components block India's critical programs. QChronyx delivers to critical sectors with no export-license delays — a truly Atma Nirbhar supply chain.
Specialist in portable atomic clocks, quantum sensing and metrology, and PNT (Positioning, Navigation and Timing). Founded by atom-physics PhD and a MEMS engineer with 9 patents.
Revenue from vapor cells funds the atomic clock; clock revenue funds QINS. A disciplined three-product sequence with anchor customers at each stage.
Mission-critical sectors where precise timing and GPS-independent navigation are non-negotiable.
5G base stations demand sub-100 ns synchronisation. QChronyx CSACs replace GPS-disciplined oscillators, eliminating sky-view dependency for towers and data centres.
Precision timing for ETCS / TCAS signalling, automatic train protection, and GPS-denied tunnel navigation for high-speed and metro rail networks.
GPS-denied drone autonomy for logistics, surveillance, and mapping. 10 Hz–1 kHz inertial update rate; 10× smaller and 5× cheaper than cold-atom peers.
Surveillance applications as well as surface and underwater navigation in GNSS-deprived and denied environments require GNSS holdover in the range of 6–12 hours, enabling jamming and spoofing resilience.
GEO and LEO satellites require onboard atomic clocks for navigation payload and timing. Space-grade qualification pathway underway.
Navigating aircraft in GNSS-denied environments need good holdover time. Our products seamlessly integrate with INS/FMS across a broad range of platforms and manufacturers.
Deep-tech founders combining quantum physics and engineering execution.
PhD in atom-cavity QED; cold & hot Rb atoms. Specialist in warm vapor optical atomic clock development. Advisor to quantum valley initiatives and deep-tech ventures.
10+ years in MEMS & micro-fluid sensor development. 9 Patents. IIT & IISc Chemical Engineering background. Deep-tech startup experience including capital raise.
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