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.
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Laser-driven cooperative dipole-dipole interactions cause free-space atomic arrays to spontaneously form topologically nontrivial dimerized linear chains and self-contracted or expanded ring geometries even from initial separations larger than the transition wavelength.
A family of quantum LDPC codes with encoding rates exceeding 1/2 achieves logical error rates of 10^{-13} per round on atom arrays under 0.1% circuit noise using hierarchical decoding.
citing papers explorer
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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.
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Light-induced Self-Organization in Cooperative Free Space Atomic Arrays
Laser-driven cooperative dipole-dipole interactions cause free-space atomic arrays to spontaneously form topologically nontrivial dimerized linear chains and self-contracted or expanded ring geometries even from initial separations larger than the transition wavelength.
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Towards Ultra-High-Rate Quantum Error Correction with Reconfigurable Atom Arrays
A family of quantum LDPC codes with encoding rates exceeding 1/2 achieves logical error rates of 10^{-13} per round on atom arrays under 0.1% circuit noise using hierarchical decoding.