介子质量决定反常动态量子相变的起始时间

arXiv - PHYS - High Energy Physics - Lattice Pub Date : 2024-07-03 DOI:arxiv-2407.03394

Jesse J. Osborne, Johannes Knaute, Ian P. McCulloch, Jad C. Halimeh

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引用次数: 0

摘要

动态量子相变（DQPTs）已被确立为研究远平衡量子多体临界性的重要框架。尽管最初认为它与阶参数翻转符号有微不足道的联系，但现在已经发现了某种反常的DQPTs。DQPTs 已经被发现，它与阶参量没有直接联系，并被证明是在存在约束的情况下产生的。在这里，我们在两个范式模型中展示了反常DQPT的起始时间是如何通过幂律与全局对称破缺相的约束机制中介子质量直接相关的。初始参数越接近平衡量子临界点，这种关系就越突出，在平衡量子临界点出现了相对论量子场论。我们的发现在介子和反常 DQPTs 之间建立了直接联系，凸显了介子和反常 DQPTs 在对远离平衡临界点的奇异现象进行分类方面的威力。

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Meson Mass Sets Onset Time of Anomalous Dynamical Quantum Phase Transitions

Dynamical quantum phase transitions (DQPTs) have been established as a rigorous framework for investigating far-from-equilibrium quantum many-body criticality. Although initially thought to be trivially connected to an order parameter flipping sign, a certain kind of \textit{anomalous} DQPTs have been discovered that exhibit no direct connection to the order parameter and have been shown to arise in the presence of confinement. Here, we show in two paradigmatic models how the onset time of anomalous DQPTs is directly connected, through a power law, to the meson mass in the confined regime of a global symmetry-broken phase. This relation becomes more prominent the closer the initial parameters are to the equilibrium quantum critical point, where a relativistic quantum field theory emerges. Our findings draw a direct connection between mesons and anomalous DQPTs, highlighting the power of the latter to classify exotic far-from-equilibrium criticality.

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arXiv - PHYS - High Energy Physics - Lattice

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