在囚禁离子中稳健且确定性地制备玻色子逻辑态
Robust and Deterministic Preparation of Bosonic Logical States in a Trapped Ion.
作者信息
Matsos V G, Valahu C H, Navickas T, Rao A D, Millican M J, Kolesnikow X C, Biercuk M J, Tan T R
机构信息
School of Physics, <a href="https://ror.org/0384j8v12">University of Sydney</a>, New South Wales 2006, Australia.
<a href="https://ror.org/03rtykw43">ARC Centre of Excellence for Engineered Quantum Systems</a>, <a href="https://ror.org/0384j8v12">University of Sydney</a>, New South Wales 2006, Australia.
出版信息
Phys Rev Lett. 2024 Aug 2;133(5):050602. doi: 10.1103/PhysRevLett.133.050602.
Encoding logical qubits in bosonic modes provides a potentially hardware-efficient implementation of fault-tolerant quantum information processing. Here, we demonstrate high-fidelity and deterministic preparation of highly nonclassical bosonic states in the mechanical motion of a trapped ion. Our approach implements error-suppressing pulses through optimized dynamical modulation of laser-driven spin-motion interactions to generate the target state in a single step. We demonstrate logical fidelities for the Gottesman-Kitaev-Preskill state as high as F[over ¯]=0.940(8), a distance-3 binomial state with an average fidelity of F=0.807(7), and a 12.91(5) dB squeezed vacuum state.
在玻色子模式中编码逻辑量子比特为容错量子信息处理提供了一种潜在的硬件高效实现方式。在此,我们展示了在捕获离子的机械运动中对高度非经典玻色子态进行高保真和确定性制备。我们的方法通过对激光驱动的自旋 - 运动相互作用进行优化动态调制来实现误差抑制脉冲,从而在单个步骤中生成目标态。我们展示了对于Gottesman - Kitaev - Preskill态的逻辑保真度高达(\overline{F}=0.940(8)),一个平均保真度为(F = 0.807(7))的距离为3的二项式态,以及一个(12.91(5))dB的压缩真空态。
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