工程任意Floquet hamilton量的微扰框架。

Yingdan Xu, Lingzhen Guo
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引用次数: 0

摘要

基于Floquet- magnus展开,建立了一个系统微扰框架,在周期驱动振荡器的Floquet相空间中构造任意目标哈密顿量。通过扰动加入高阶驱动势,减小了工程Floquet hamilton算符的高阶误差。我们介绍了一种变换方法,使我们能够得到在相空间中具有离散旋转和手性对称的工程目标哈密顿量的一阶修正驱动的解析表达式。我们还提供了一个数值上有效的程序来计算高阶校正驱动器,并将其应用于设计具有多分量cat状态的退化特征态的目标哈密顿量,这对于容错硬件效率玻色子量子计算非常重要。
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Perturbative framework for engineering arbitrary Floquet Hamiltonian.

We develop a systematic perturbative framework to engineer an arbitrary target Hamiltonian in the Floquet phase space of a periodically driven oscillator based on Floquet-Magnus expansion. The high-order errors in the engineered Floquet Hamiltonian are mitigated by adding high-order driving potentials perturbatively. We introduce a transformation method that allows us to obtain an analytical expression of the leading-order correction drive for engineering a target Hamiltonian with discrete rotational and chiral symmetries in phase space. We also provide a numerically efficient procedure to calculate high-order correction drives and apply it to engineer the target Hamiltonian with degenerate eigenstates of multi-component cat states that are important for fault-tolerant hardware-efficiency bosonic quantum computation.

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