# Geometric Stability of Pseudo-plane Ideal Flows

**Authors:** Che Sun

arXiv: 1701.07499 · 2017-01-27

## TL;DR

This paper investigates the geometric stability of steady pseudo-plane ideal flows, revealing conditions for vertical coherence and providing a topological explanation for observed vortex behaviors.

## Contribution

It introduces a geometric stability theory contrasting traditional dynamical stability, linking flow topology to vertical alignment and stability in pseudo-plane flows.

## Key findings

- Vertical alignment exists only in straightline jets and circular vortices.
- All vertical-aligned flows are geometrically stable.
- Non-aligned flows are geometrically unstable.

## Abstract

Geometric analysis of steady pseudo-plane ideal flow reveals a fundamental relation between vertical coherence and streamline topology. It shows vertical alignment only exists in straightline jet and circular vortex. A geometric stability theory is then developed as a structural stability in contrast to traditional dynamical stability, suggesting all vertical-aligned pseudo-plane flows are geometrically stable and all non-aligned non-straightline flows are unstable. It provides a topological explanation for the tendency of axisymmetrization and vertical alignment observed in vortex experiments.

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Source: https://tomesphere.com/paper/1701.07499