Ephemeral Superconductivity Atop the False Vacuum

arXiv - PHYS - Superconductivity Pub Date : 2024-09-04 DOI:arxiv-2409.02992

Gal Shavit, Stevan Nadj-Perge, Gil Refael

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Abstract

A many body system in the vicinity of a first-order phase transition may get trapped in a local minimum of the free energy landscape. These so-called false-vacuum states may survive for exceedingly long times if the barrier for their decay is high enough. The rich phase diagram obtained in graphene multilayer devices presents a unique opportunity to explore transient superconductivity on top of a correlated false vacuum. Specifically, we consider superconductors which are terminated by an apparent first-order phase transition to a correlated phase with different symmetry. We propose that quenching across this transition leads to a non-equilibrium ephemeral superconductor, readily detectable using straightforward transport measurements. Besides enabling a simple detection scheme, the transient superconductor also generically enhances the false vacuum lifetime, potentially by orders of magnitude. In several scenarios, the complimentary effect takes place as well: superconductivity is temporarily emboldened in the false vacuum, albeit ultimately decaying. We demonstrate the applicability of these claims for two different instances of superconductivity terminated by a first order transition in rhombohedral graphene. The obtained decay timescales position this class of materials as a promising playground to unambiguously realize and measure non-equilibrium superconductivity.

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假真空之上的短暂超导现象

在一阶相变附近的多体系统可能会被困在自由能谱的局部最小值中。如果其衰变的势垒足够高，这些所谓的假真空态可能会存活很长时间。在石墨烯多层器件中获得的丰富相图为探索相关假真空之上的瞬态超导性提供了一个独特的机会。具体来说，我们考虑的超导体是由一个明显的一阶相位转变到一个具有不同对称性的相关相位所终止的。我们提出，跨越这一转变的淬火会导致一种非平衡的短暂超导体，而这种超导体很容易通过直接的传输测量进行探测。瞬态超导体除了能实现简单的探测方案外，还能普遍增强假真空寿命，可能达到几个数量级。在几种情况下，还出现了互补效应：超导性在假真空中暂时增强，尽管最终会衰减。我们在斜方体石墨烯中通过一阶转变终止超导的两个不同实例中证明了这些说法的适用性。所获得的衰变时间尺度将这一类材料定位为明确实现和测量非平衡超导性的理想场所。

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 - PHYS - Superconductivity

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