Nanofluidic Platform for Studying the First-Order Phase Transitions in Superfluid Helium-3

IF 1.1 3区 物理与天体物理 Q4 PHYSICS, APPLIED
Petri J. Heikkinen, Nathan Eng, Lev V. Levitin, Xavier Rojas, Angadjit Singh, Samuli Autti, Richard P. Haley, Mark Hindmarsh, Dmitry E. Zmeev, Jeevak M. Parpia, Andrew Casey, John Saunders
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引用次数: 0

Abstract

The symmetry-breaking first-order phase transition between superfluid phases \(^3\)He-A and \(^3\)He-B can be triggered extrinsically by ionising radiation or heterogeneous nucleation arising from the details of the sample cell construction. However, the role of potential homogeneous intrinsic nucleation mechanisms remains elusive. Discovering and resolving the intrinsic processes may have cosmological consequences, since an analogous first-order phase transition, and the production of gravitational waves, has been predicted for the very early stages of the expanding Universe in many extensions of the Standard Model of particle physics. Here we introduce a new approach for probing the phase transition in superfluid \(^3\)He. The setup consists of a novel stepped-height nanofluidic sample container with close to atomically smooth walls. The \(^3\)He is confined in five tiny nanofabricated volumes and assayed non-invasively by NMR. Tuning of the state of \(^3\)He by confinement is used to isolate each of these five volumes so that the phase transitions in them can occur independently and free from any obvious sources of heterogeneous nucleation. The small volumes also ensure that the transitions triggered by ionising radiation are strongly suppressed. Here we present the preliminary measurements using this setup, showing both strong supercooling of \(^3\)He-A and superheating of \(^3\)He-B, with stochastic processes dominating the phase transitions between the two. The objective is to study the nucleation as a function of temperature and pressure over the full phase diagram, to both better test the proposed extrinsic mechanisms and seek potential parallel intrinsic mechanisms.

Abstract Image

研究超流体氦-3 一阶相变的纳米流体平台
超流体相((^3\)He-A)和((^3\)He-B)之间打破对称性的一阶相变可以由电离辐射或样品池构造细节引起的异质成核触发。然而,潜在的同质内在成核机制的作用仍然难以捉摸。发现并解决内在过程可能会对宇宙学产生影响,因为在粒子物理学标准模型的许多扩展中,已经预测了宇宙膨胀初期的类似一阶相变和引力波的产生。在这里,我们介绍了一种探测超流体(^3\)He相变的新方法。该装置由一个新颖的阶梯高度纳米流体样品容器组成,容器壁接近原子级光滑。超流体(^3)He被限制在五个微小的纳米制造体积中,并通过核磁共振进行无创检测。通过限制来调整 \(^3\)He 的状态,从而将这五个体积中的每一个都隔离开来,这样它们中的相变就可以独立发生,而不会受到任何明显的异质成核源的影响。小体积还能确保电离辐射引发的跃迁被强烈抑制。在这里,我们介绍了使用这种装置进行的初步测量,结果显示了 \(^3\)He-A 的强过冷和 \(^3\)He-B 的过热,随机过程主导了两者之间的相变。目的是研究成核作为温度和压力函数在整个相图中的作用,以便更好地检验提出的外在机制,并寻找潜在的平行内在机制。
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来源期刊
Journal of Low Temperature Physics
Journal of Low Temperature Physics 物理-物理:凝聚态物理
CiteScore
3.30
自引率
25.00%
发文量
245
审稿时长
1 months
期刊介绍: The Journal of Low Temperature Physics publishes original papers and review articles on all areas of low temperature physics and cryogenics, including theoretical and experimental contributions. Subject areas include: Quantum solids, liquids and gases; Superfluidity; Superconductivity; Condensed matter physics; Experimental techniques; The Journal encourages the submission of Rapid Communications and Special Issues.
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