
Quantum bits (qubits) can be made inherently resilient to bit-flip errors by encoding them in the metastable states of a quantum dynamical system, forming a "cat qubit". This experiment demonstrates the ability to control the phase of such a cat qubit without compromising its exceptional bit-flip protection, a critical milestone for practical quantum computing.


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A type of qubit that has inherent resistance to bit-flip errors has been manipulated with a bit-flip time of more than 10 s without losing that error protection.

Quantum control of a cat qubit with bit-flip times exceeding ten seconds - Nature

superconducting-circuit-experiment-demonstrates-quantum-control-of-inherently-protected-cat-qubit-with-exceptional-bit-flip-resilience


Superconducting Circuit Experiment Demonstrates Quantum Control of Inherently Protected Cat Qubit with Exceptional Bit-Flip Resilience
