Cloud-Accessible, Programmable Quantum Simulator Based on Two-Dimensional Neutral Atom Arrays

Quantum 2.0 Conference and Exhibition Pub Date : 1900-01-01 DOI:10.1364/quantum.2022.qw3a.2
F. Huber, J. Amato-Grill, A. Bylinskii, Sergio H. Cantu, Ming-Guang Hu, Donggyu Kim, Alexander Lukin, N. Gemelke, A. Keesling
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引用次数: 0

Abstract

Neutral atom arrays recently emerged as one the leading platforms for large-scale quantum computing and simulations [1, 2]. These systems offer a variety of possible qubit encodings with long coherence times along with exceptional programmability and reconfigurability of the array geometry and qubit connectivity. In addition, strong, highly coherent coupling between the qubits can be achieved using Rydberg states of the atoms. QuEra provides a cloud-accessible, programmable 256-qubit quantum simulator based on a two-dimensional array of Rubidium-87 atoms in reconfigurable optical tweezers.
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基于二维中性原子阵列的云访问可编程量子模拟器
中性原子阵列最近成为大规模量子计算和模拟的主要平台之一[1,2]。这些系统提供了多种可能的量子比特编码,具有较长的相干时间,以及阵列几何形状和量子比特连接的卓越可编程性和可重构性。此外,量子比特之间的强、高相干耦合可以利用原子的里德伯态来实现。QuEra提供了一个可云访问的、可编程的256量子位量子模拟器,该模拟器基于可重构光镊中的二维铷-87原子阵列。
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Quantum 2.0 Conference and Exhibition
Quantum 2.0 Conference and Exhibition
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