Generated 95-qubit 1D and 72-qubit 2D genuine entangled cluster states on superconducting hardware with fidelities above 0.55 and verified their symmetry-protected topological phases via input-state-dependent teleportation robustness.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
quant-ph 2years
2025 2verdicts
CONDITIONAL 2representative citing papers
Experimental optimization of tunable coupler frequencies in a multi-transmon circuit QED processor to suppress spectator-induced errors on quantum operations.
citing papers explorer
-
Generation of 95-qubit genuine entanglement and verification of symmetry-protected topological phases
Generated 95-qubit 1D and 72-qubit 2D genuine entangled cluster states on superconducting hardware with fidelities above 0.55 and verified their symmetry-protected topological phases via input-state-dependent teleportation robustness.
-
Optimizing the frequency positioning of tunable couplers in a circuit QED processor to mitigate spectator effects on quantum operations
Experimental optimization of tunable coupler frequencies in a multi-transmon circuit QED processor to suppress spectator-induced errors on quantum operations.