利用静态量子多体伤痕模型生成周期驱动下的时晶行为

Wentai Deng, Zhi-Cheng Yang
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引用次数: 1

摘要

我们提出了一种方案,通过周期性地驱动某些承载量子多体伤痕的哈密顿子来产生周期加倍的响应,类似于最近在驱动里德伯原子阵列中的实验观察。我们的构造利用了与静态量子伤痕哈密顿量相关的su(2)谱生成代数,在适当选择的驱动参数下,经过一段时间的演化,在伤痕子空间内实现$\ensuremath{\pi}$旋转。这产生周期倍(次谐波)响应在局部可观测到的任何选择的初始状态驻留在疤痕子空间。准能谱具有非典型的$\ensuremath{\pi}$配对特征态嵌入在其他完全热谱中。该方案既不需要大的驱动频率,也不需要大的驱动幅度,因此不同于以前研究驱动PXP模型的预热化物理。我们使用几个具有精确的su(2)谱生成代数的自旋-1/2和自旋-1量子伤痕模型,以及一个对称变形的PXP模型来证明我们的方案,其中su(2)代数只是近似的。我们的研究结果扩展了承载量子多体伤痕的模型类别,这些伤痕可以用来在周期性驱动下产生时间晶体行为。
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Using models with static quantum many-body scars to generate time-crystalline behavior under periodic driving
We propose a scheme that generates period-doubled responses via periodically driving certain Hamiltonians hosting quantum many-body scars, akin to recent experimental observations in driven Rydberg atom arrays. Our construction takes advantage of an su(2) spectrum generating algebra associated with the static quantum-scarred Hamiltonian, which enacts a $\ensuremath{\pi}$ rotation within the scar subspace after one period of time evolution with appropriately chosen driving parameters. This yields period-doubled (subharmonic) responses in local observables for any choice of initial state residing in the scar subspace. The quasienergy spectrum features atypical $\ensuremath{\pi}$-paired eigenstates embedded in an otherwise fully thermal spectrum. The protocol requires neither a large driving frequency nor a large driving amplitude and is thus distinct from the prethermalization physics in previous investigations of the driven PXP model. We demonstrate our scheme using several spin-1/2 and spin-1 quantum scarred models possessing an exact su(2) spectrum generating algebra, as well as a symmetry-deformed PXP model, where the su(2) algebra is only approximate. Our results extend the class of models hosting quantum many-body scars that can be leveraged to yield time-crystalline behaviors under periodic driving.
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