Pauli Envelope framework enables optimal loss-distance correction (d_loss ~ d) for rotated surface codes via Mid-SWAP circuits and Envelope-MLE decoder, with simulations showing up to 40% higher thresholds.
Optimiz- ing Quantum Error Correction Protocols with Erasure Qubits
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
fields
quant-ph 3years
2026 3representative citing papers
A new decoder exploiting correlated atom loss in surface codes raises the loss threshold from 3.2% to 4% and cuts logical errors by up to 10x for neutral-atom processors.
A planar trimon circuit with three modes achieves universal Hamiltonian control, implementing all 16 two-qubit Pauli operators and operating as an 8-state qudit with higher coherence than standard transmons.
citing papers explorer
-
Achieving Optimal-Distance Atom-Loss Correction via Pauli Envelope
Pauli Envelope framework enables optimal loss-distance correction (d_loss ~ d) for rotated surface codes via Mid-SWAP circuits and Envelope-MLE decoder, with simulations showing up to 40% higher thresholds.
-
Correlated Atom Loss as a Resource for Quantum Error Correction
A new decoder exploiting correlated atom loss in surface codes raises the loss threshold from 3.2% to 4% and cuts logical errors by up to 10x for neutral-atom processors.
-
Universal Hamiltonian control in a planar trimon circuit
A planar trimon circuit with three modes achieves universal Hamiltonian control, implementing all 16 two-qubit Pauli operators and operating as an 8-state qudit with higher coherence than standard transmons.