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Quantum Error Correction Fault Tolerance
Entangling four logical qubits beyond break-even in a nonlocal code
arXiv
Authors: Yifan Hong, Elijah Durso-Sabina, David Hayes, Andrew Lucas
Year
2024
Paper ID
66916
Status
Preprint
Abstract Read
~2 min
Abstract Words
150
Citations
N/A
Abstract
Quantum error correction protects logical quantum information against environmental decoherence by encoding logical qubits into entangled states of physical qubits. One of the most important near-term challenges in building a scalable quantum computer is to reach the break-even point, where logical quantum circuits on error-corrected qubits achieve higher fidelity than equivalent circuits on uncorrected physical qubits. Using Quantinuum's H2 trapped-ion quantum processor, we encode the GHZ state in four logical qubits with fidelity 99.5 pm 0.15 \% le F le 99.7 pm 0.1\% (after postselecting on over 98% of outcomes). Using the same quantum processor, we can prepare an uncorrected GHZ state on four physical qubits with fidelity 97.8 pm 0.2 \% le Fle 98.7pm 0.2\%. The logical qubits are encoded in a [[ 25,4,3 ]] Tanner-transformed long-range-enhanced surface code. Logical entangling gates are implemented using simple swap operations. Our results are a first step towards realizing fault-tolerant quantum computation with logical qubits encoded in geometrically nonlocal quantum low-density parity check codes.
Why This Paper Matters
- This paper contributes to the Quantum Error Correction & Fault Tolerance research area in the Quantum Articles archive.
- It adds a 2024 reference point for readers tracking recent quantum research.
- Quantum error correction protects logical quantum information against environmental decoherence by encoding logical qubits into entangled states of physical qubits.
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