A graph neural network path planner and phase-aware Gerchberg-Saxton algorithm enable defect-free assembly of 10,000-atom arrays in under 6 ms, faster than typical atom loss times.
Title resolution pending
7 Pith papers cite this work. Polarity classification is still indexing.
7
Pith papers citing it
representative citing papers
Light-assisted redistribution via blue-detuned pumping during Raman sideband cooling achieves 70-80% single-atom occupancy in optical lattices while retaining over 50% of atoms involved in collisions.
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.
EIT cooling with fluorescence imaging achieves 99.7% readout fidelity and 98.2% survival for 87Rb atom arrays in 2.3 G fields, validated up to 10 G.
Rydberg EIT spectroscopy with linearly polarized RF fields identifies two angular momentum ladder types with opposite central EIT peak behavior, challenging SI-traceable electrometer assumptions.
Soft decoding with analog measurement data raises repetition-code thresholds by 25% and reduces error rates up to 30x on superconducting qubits, with one byte per shot sufficient for near-optimal performance.
citing papers explorer
-
An Algorithm for Fast Assembling Large-Scale Defect-Free Atom Arrays
A graph neural network path planner and phase-aware Gerchberg-Saxton algorithm enable defect-free assembly of 10,000-atom arrays in under 6 ms, faster than typical atom loss times.
-
Achieving High Filling of an Optical Lattice by Light-Assisted Redistribution of Atoms
Light-assisted redistribution via blue-detuned pumping during Raman sideband cooling achieves 70-80% single-atom occupancy in optical lattices while retaining over 50% of atoms involved in collisions.
-
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.
-
Loading and Imaging Atom Arrays via Electromagnetically Induced Transparency
EIT cooling with fluorescence imaging achieves 99.7% readout fidelity and 98.2% survival for 87Rb atom arrays in 2.3 G fields, validated up to 10 G.
-
EIT Spectroscopy of Rydberg Levels Dressed by Linearly Polarized RF fields: Complementary Angular Response for Two Types of Transition Ladders
Rydberg EIT spectroscopy with linearly polarized RF fields identifies two angular momentum ladder types with opposite central EIT peak behavior, challenging SI-traceable electrometer assumptions.
-
Soft information decoding with superconducting qubits
Soft decoding with analog measurement data raises repetition-code thresholds by 25% and reduces error rates up to 30x on superconducting qubits, with one byte per shot sufficient for near-optimal performance.
- AI-Enabled Decoding of Qubit Loss for Quantum Error-Correcting Codes