Critical latitude in global quasi-geostrophic flow on a rotating sphere

arXiv - PHYS - Fluid Dynamics Pub Date : 2024-09-09 DOI:arxiv-2409.05432

Arnout Franken, Erwin Luesink, Sagy Ephrati, Bernard Geurts

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Abstract

In this paper, we study geostrophic turbulence without external forcing or dissipation, using a Casimir-preserving numerical method. The research examines the formation of large zonal jets, common in geophysical flows, especially in giant gas planets. These jets form due to the east-west stretching of vortices, influenced by the gradient of the Coriolis parameter, leading to a critical latitude beyond which jets do not form. Using a global quasi-geostrophic model with a fully latitude-dependent Coriolis parameter, we investigate this critical latitude, which is theorized to depend only on the product of the Rossby number and the Lamb parameter. By simulating random flow fields, the critical latitude was identified through zonally averaged zonal velocity profiles. Results align with geostrophic theory, especially near typical Rossby and Lamb parameter values for Earth's atmosphere. However, in the regime of weak rotation (high Rossby numbers) and strong stratification (high Lamb values), no clear critical latitude emerges; instead, zonal jet amplitude and width decrease gradually towards the poles. This research paves the way for further study of jet dynamics under a fully latitude-dependent Coriolis parameter.

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旋转球体上全球准地转流的临界纬度

在本文中，我们使用卡西米尔保全数值方法研究了没有外部强迫命令的地转湍流。研究考察了地球物理流，尤其是巨型气体行星中常见的大型带状喷流的形成。这些喷流的形成是由于受到科里奥利参数梯度的影响，涡旋向东西方向伸展，从而导致在一个批评的纬度之外不会形成喷流。我们利用一个完全取决于纬度的科里奥利参数的全球准地转模型，研究了这一临界纬度，理论上它只取决于罗斯比数和兰姆参数的乘积。通过模拟随机流场，我们确定了临界纬度的区带平均速度剖面。结果与地转理论一致，特别是在地球大气典型的罗斯比数和兰姆参数值附近。然而，在弱旋转（高罗斯比数）和强分层（高兰姆值）情况下，没有出现明确的临界纬度；相反，带状射流的振幅和宽度向两极逐渐减小。这项研究为进一步研究完全依赖纬度的科里奥利参数下的喷流动力学铺平了道路。

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 - Fluid Dynamics

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