Quantum Computing Platform
PolarisQ is a modular tweezer-array quantum computing platform — a population of individually trapped neutral atoms held, addressed, and manipulated as a single coherent quantum machine. Built around an in-vacuum high-NA tweezer microscope, PolarisQ is the computational substrate on which programmable quantum simulation, distributed quantum computing, and the next generation of many-body quantum experiments can be built.
Computation, Composed.
Capabilities
Programmable Atom Array
More than 100 atomic qubits across more than 1,000 tweezer sites, sub-micron positioning.
High-Fidelity Quantum Operations
Single-atom detection, high-fidelity single-qubit and two-qubit gates.
Real-Time Reconfiguration
Low array displacement latency, atoms moved at the cadence of the experiment.
For full technical specifications, holdover performance data, optical frequency comb configurations, and integration documentation, contact gov@q-block.ca.