TriQuanta Labs pioneers breakthrough hybrid quantum computers combining neutral atoms and trapped ions, unlocking unprecedented computational power for the world's hardest problems.
Two quantum paradigms. One unified platform. Infinite possibilities.
Ultra-cold neutral atoms trapped in optical lattices provide exceptional coherence times and programmable connectivity at scale.
Seamless integration between atom and ion subsystems creates a quantum computer with the best of both worlds — coherence and precision unified.
Individual ions confined by electromagnetic fields deliver unmatched gate fidelity and long-range entanglement across the full register.
Pushing the boundaries of what quantum hardware can achieve.
We demonstrate the first high-fidelity entangling gate between a neutral atom qubit and a trapped ion qubit, achieving 99.1% Bell-state fidelity via a photonic interface.
Read Paper →512-site tweezer array with real-time reconfigurability and non-destructive readout, enabling fault-tolerant logical qubits.
Read Paper →A record quantum volume benchmark on our hybrid platform, demonstrating practical quantum advantage for combinatorial optimization.
Read Paper →FPGA-based classical co-processor enables sub-microsecond syndrome extraction and correction, a critical milestone for fault tolerance.
Read Paper →Quantum advantage for the industries that need it most.
Simulate molecular interactions at quantum accuracy. Accelerate lead compound identification from years to weeks.
Solve large-scale combinatorial finance problems — risk balancing, derivatives pricing — beyond classical compute limits.
Run high-resolution atmospheric and ocean simulations to improve climate prediction and carbon capture research.
Design novel superconductors, battery materials, and catalysts by exactly simulating electronic structure.
Quantum optimization for supply chain, vehicle routing, and network design at scales impossible classically.
Harden infrastructure against quantum threats. Test and validate NIST-standardized PQC algorithms at scale.
Whether you're a researcher, enterprise partner, or investor — we'd love to hear from you.