Fermion-induced dynamical critical point

arXiv: Statistical Mechanics Pub Date : 2020-06-16 DOI:10.1103/PHYSREVB.103.125116

Shuai Yin, Shao-Kai Jian

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引用次数: 3

Abstract

Dynamical phase transition (DPT) characterizes the abrupt change of dynamical properties in nonequilibrium quantum many-body systems. It has been demonstrated that extra quantum fluctuating modes besides the conventional order parameter field can drastically change the properties of equilibrium phase transitions. However, the counterpart phenomena in DPTs have rarely been explored. Here, we study the DPT in the Dirac system after a sudden quench, and find that the fermion fluctuations can round a putative first-order DPT into a dynamical critical point, which is referred to as a fermion-induced dynamical critical point (FIDCP). It is also a nonthermal critical point, in which the universal short-time scaling behavior emerges despite the system goes through a first-order transition after thermalization. In the novel scenario of FIDCP, the quantum Yukawa coupling $g_q$ is indispensable for inducing the FIDCP albeit irrelevant in the infrared scale. We call these variables {\it indispensable irrelevant scaling variables}. Moreover, a dynamical tricritical point which separates the first-order DPT and the FIDCP is discovered by tuning this indispensable irrelevant scaling variable. We further mention possible experimental realizations.

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费米子诱导的动力学临界点

动态相变(DPT)表征了非平衡态量子多体系统动力学性质的突变。研究表明，除了常规的序参量场外，额外的量子涨落模式可以极大地改变平衡相变的性质。然而，DPTs的对应现象很少被研究。本文研究了陡然猝灭后狄拉克系统中的DPT，发现费米子涨落可以将一个假定的一阶DPT舍入到一个动力学临界点，这个临界点称为费米子诱导动力学临界点(FIDCP)。它也是一个非热临界点，在这个临界点上，尽管系统在热化后经历了一阶转变，但仍出现了普遍的短时结垢行为。在FIDCP的新场景中，量子汤川耦合$g_q$对于诱发FIDCP是必不可少的，尽管在红外尺度上无关紧要。我们称这些变量为“不可缺少的无关尺度变量”。此外，通过调整这一不可缺少的无关标度变量，找到了一阶DPT和FIDCP的动态三临界点。我们进一步提到可能的实验实现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv: Statistical Mechanics

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