旋转对流行星核型流影图测量结果

IF 3.9 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Journal of Geophysical Research: Planets Pub Date : 2024-09-03 DOI:10.1029/2024JE008471
Jewel A. Abbate, Jonathan M. Aurnou
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引用次数: 0

摘要

旋转对流的局部尺度 ℓ 是许多湍流地球物理和天体物理流体系统中的基本参数,但它往往受到很差的约束。在这里,我们进行了类似于行星内核和地表下海洋对流的旋转对流实验室实验,以获得局部运动尺度的测量值。利用硅油作为工作流体,我们采用阴影图成像技术将流动可视化,从中提取对流柱和羽流的特征横轴尺度值。我们将这些测量值与临界起始长度尺度 ℓcrit 和湍流长度尺度 ℓturb 的理论值进行了比较。我们通过实验获得的长度尺度测量值同时与对流超临界的三个数量级(1 0 2 ≲ R a ∼ ≲ 1 0 5)的起始尺度和湍流尺度预测值相吻合(1{0}^{2}\lesssim \tilde{Ra}\lesssim 1{0}^{5}),这种相关性与之前研究的推论是一致的。我们将进一步探讨这种相关性的性质及其对地球物理和天体物理系统的影响。
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Shadowgraph Measurements of Rotating Convective Planetary Core-Style Flows

The local scale of rotating convection, , is a fundamental parameter in many turbulent geophysical and astrophysical fluid systems, yet it is often poorly constrained. Here we conduct rotating convection laboratory experiments analogous to convecting flows in planetary cores and subsurface oceans to obtain measurements of the local scales of motion. Utilizing silicone oil as the working fluid, we employ shadowgraph imagery to visualize the flow, from which we extract values of the characteristic cross-axial scale of convective columns and plumes. These measurements are compared to the theoretical values of the critical onset length scale, crit, and the turbulent length scale, turb. Our experimentally obtained length scale measurements simultaneously agree with both the onset and turbulent scale predictions across three orders of magnitude in convective supercriticality ( 1 0 2 R a 1 0 5 ) $(1{0}^{2}\lesssim \tilde{Ra}\lesssim 1{0}^{5})$ , a correlation that is consistent with inferences made in prior studies. We further explore the nature of this correlation and its implications for geophysical and astrophysical systems.

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来源期刊
Journal of Geophysical Research: Planets
Journal of Geophysical Research: Planets Earth and Planetary Sciences-Earth and Planetary Sciences (miscellaneous)
CiteScore
8.00
自引率
27.10%
发文量
254
期刊介绍: The Journal of Geophysical Research Planets is dedicated to the publication of new and original research in the broad field of planetary science. Manuscripts concerning planetary geology, geophysics, geochemistry, atmospheres, and dynamics are appropriate for the journal when they increase knowledge about the processes that affect Solar System objects. Manuscripts concerning other planetary systems, exoplanets or Earth are welcome when presented in a comparative planetology perspective. Studies in the field of astrobiology will be considered when they have immediate consequences for the interpretation of planetary data. JGR: Planets does not publish manuscripts that deal with future missions and instrumentation, nor those that are primarily of an engineering interest. Instrument, calibration or data processing papers may be appropriate for the journal, but only when accompanied by scientific analysis and interpretation that increases understanding of the studied object. A manuscript that describes a new method or technique would be acceptable for JGR: Planets if it contained new and relevant scientific results obtained using the method. Review articles are generally not appropriate for JGR: Planets, but they may be considered if they form an integral part of a special issue.
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