Advancements in programmable gate-based quantum processing with rubidium tweezer arrays
ORAL
Abstract
Neutral-atom arrays have emerged as one of the leading platforms for large-scale quantum computation and simulation. These systems offer qubit encodings with long coherence times, along with exceptional programmability and reconfigurability of the qubit geometry and connectivity in a quantum circuit. Raman transitions enable single qubit rotations with global and local control. In addition, Rydberg states create strong and coherent couplings between the qubits to engineer two- and multi-qubits gates.We will present QuEra Computing's latest programmable gate-based quantum processor using a two-dimensional array of Rubidium atoms in reconfigurable optical tweezers. We will discuss our progress in realizing high fidelity single-qubit and two-qubit gates, in encoding into logical qubits, and in carrying out initial benchmarking circuits.
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Presenters
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Paul N Jepsen
QuEra Computing Inc.
Authors
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Paul N Jepsen
QuEra Computing Inc.
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John M Robinson
QuEra Computing Inc.
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Pedro Sales Rodriguez
QuEra Computing Inc.
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Casey Duckering
QuEra Computing Inc.
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Phillip E Weinberg
QuEra Computing Inc, QuEra Computing Inc.
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Joseph Campo
QuEra Computing Inc.
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Yiping Wang
Northwestern University
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Zhiyang He
QuEra Computing Inc.
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Kevin Bagnall
QuEra Computing Inc.
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Ming-Guang Hu
QuEra Computing Inc
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Alexander Lukin
QuEra Computing Inc., QuEra Computing Inc
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Sergio H Cantu
QuEra Computing Inc.