Dynamical control schemes for dual-rail erasure qubits suppress transmon-induced noise, reducing erasure check errors by three orders of magnitude and logical two-qubit gate infidelities by up to three orders of magnitude.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
quant-ph 2verdicts
UNVERDICTED 2representative citing papers
Energy modeling and parameter optimization for cat-qubit superconducting quantum computers performing semiclassical QFT with error correction indicates an energetic advantage over classical systems for more than 26 qubits under cryogenic assumptions.
citing papers explorer
-
Dynamical error reshaping for dual-rail erasure qubits
Dynamical control schemes for dual-rail erasure qubits suppress transmon-induced noise, reducing erasure check errors by three orders of magnitude and logical two-qubit gate infidelities by up to three orders of magnitude.
-
Unveiling Energetic Advantage in Superconducting Cat-Qubits Quantum Computation
Energy modeling and parameter optimization for cat-qubit superconducting quantum computers performing semiclassical QFT with error correction indicates an energetic advantage over classical systems for more than 26 qubits under cryogenic assumptions.