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A superconducting surface-code processor with lattice-surgery logical operations

2 Pith papers cite this work. Polarity classification is still indexing.

2 Pith papers citing it
abstract

Fault-tolerant logical operations are fundamental for scalable quantum computation. Here, we report the experimental realization of lattice-surgery operations between a pair of distance-three surface-code logical qubits on a planar superconducting processor. During repeated syndrome extraction cycles, the logical qubits exhibit per-cycle error rates of $0.0365(2)$ and $0.0282(1)$, respectively, after leakage events are rejected. By leveraging joint initialization and lattice splitting, we deterministically prepare a logical Bell state, confirming genuine bipartite entanglement via the error-corrected logical state fidelity. We further execute a two-qubit Deutsch-Jozsa algorithm at the logical level to demonstrate algorithmic utility in a fault-tolerant framework. Finally, to achieve universal control, we implement magic-state injection and gate teleportation to realize continuous non-Clifford rotations about the logical $X$ axis. For the logical $R_{X}(\pi/4)$ gate, we achieve a logical gate fidelity of $0.943_{-9}^{+10}$ conditioned on the absence of detected errors. These results establish lattice surgery as a practical and versatile paradigm for logical computation in near-term surface-code architectures, representing a critical milestone toward scalable fault-tolerant quantum advantage in superconducting circuits.

fields

quant-ph 2

years

2026 2

verdicts

UNVERDICTED 2

representative citing papers

Vine Codes: Low-Overhead Quantum LDPC Codes on a Planar Square Grid

quant-ph · 2026-06-18 · unverdicted · novelty 8.0

Vine codes generalize directional codes to open planar boundaries, delivering up to 28% fewer data/measure qubits at circuit distance 7 and better simulated performance than the surface code at 10^{-3} noise while using fewer total qubits.

citing papers explorer

Showing 2 of 2 citing papers.

  • Vine Codes: Low-Overhead Quantum LDPC Codes on a Planar Square Grid quant-ph · 2026-06-18 · unverdicted · none · ref 34 · internal anchor

    Vine codes generalize directional codes to open planar boundaries, delivering up to 28% fewer data/measure qubits at circuit distance 7 and better simulated performance than the surface code at 10^{-3} noise while using fewer total qubits.

  • Surface code logical operations on a superconducting quantum processor quant-ph · 2026-07-01 · unverdicted · none · ref 20 · internal anchor

    Experimental demonstration of patch-based surface-code logical operations (routing, CNOT, Hadamard, phase) on distance-3 patches in a 107-qubit superconducting processor without post-selection.