2024-12-18 サンディア国立研究所(SNL)
<関連情報>
- https://newsreleases.sandia.gov/hey-wheres-my-qubit/
- https://journals.aps.org/prxquantum/abstract/10.1103/PRXQuantum.5.040343
中性原子量子プロセッサーにおける回路ベースのリークから消去への変換に成功 Circuit-Based Leakage-to-Erasure Conversion in a Neutral-Atom Quantum Processor
Matthew N. H. Chow, Vikas Buchemmavari, Sivaprasad Omanakuttan, Bethany J. Little, Saurabh Pandey, Ivan H. Deutsch, and Yuan-Yu Jau
PRX Quantum Published 16 December, 2024
DOI:https://doi.org/10.1103/PRXQuantum.5.040343
Abstract
Atom-loss errors are a major limitation of current state-of-the-art neutral-atom quantum computers and pose a significant challenge for scalable systems. In a quantum processor with cesium atoms, we demonstrate proof-of-principle circuit-based conversion of this form of leakage error to erasure errors via leakage-detection units (LDUs), which nondestructively map information about the presence or absence of the qubit onto the state of an ancilla. We benchmark the performance of the LDU using a three-outcome low-loss state-detection method and find that the LDU detects atom-loss errors with approximately 93.4% accuracy, limited by technical imperfections of our apparatus. We further compile and execute a swap LDU, wherein the roles of the original data atom and ancilla atom are exchanged under the action of the LDU, providing “free refilling” of atoms in the case of atom loss. This circuit-based leakage-to-erasure error conversion is a critical component of a neutral-atom quantum processor where the quantum information may significantly outlive the lifetime of any individual atom in the quantum register. Finally, we demonstrate that LDUs may also be used to handle other forms of leakage errors where population moves to states outside of the computational subspace.
