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| Format: | Preprint |
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2025
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| Online-Zugang: | https://arxiv.org/abs/2505.17817 |
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| _version_ | 1866915301140987904 |
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| author | Drivas, Theodore D. Ginsberg, Daniel Nualart, Marc |
| author_facet | Drivas, Theodore D. Ginsberg, Daniel Nualart, Marc |
| contents | Inviscid laminar flow is a stationary solution of the incompressible Euler equations whose streamlines foliate the fluid domain. Their structure on symmetric domains is rigid: all laminar flows occupying straight periodic channels are shear and on regular annuli they are circular. Laminarity can persist to slight deformations of these domains provided the base flow is Arnold stable and non-stagnant (non-vanishing velocity). On the other hand, flows with trivial net momentum (and thus stagnate) break laminarity by developing islands (regions of contractible streamlines) on all non-flat periodic channels with up/down reflection symmetry. Here, we show that stable steady states occupying generic channels or annuli and stagnate must have islands. Additionally, when the domain is close to symmetric, we characterize the size of the islands, showing that they scale as the square root of the boundary's deviation from flat. Taken together, these results show that dynamically stable laminar flows are structurally unstable whenever they stagnate. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2505_17817 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | On the fragility of laminar flow Drivas, Theodore D. Ginsberg, Daniel Nualart, Marc Analysis of PDEs Fluid Dynamics 76B03, 76W05 Inviscid laminar flow is a stationary solution of the incompressible Euler equations whose streamlines foliate the fluid domain. Their structure on symmetric domains is rigid: all laminar flows occupying straight periodic channels are shear and on regular annuli they are circular. Laminarity can persist to slight deformations of these domains provided the base flow is Arnold stable and non-stagnant (non-vanishing velocity). On the other hand, flows with trivial net momentum (and thus stagnate) break laminarity by developing islands (regions of contractible streamlines) on all non-flat periodic channels with up/down reflection symmetry. Here, we show that stable steady states occupying generic channels or annuli and stagnate must have islands. Additionally, when the domain is close to symmetric, we characterize the size of the islands, showing that they scale as the square root of the boundary's deviation from flat. Taken together, these results show that dynamically stable laminar flows are structurally unstable whenever they stagnate. |
| title | On the fragility of laminar flow |
| topic | Analysis of PDEs Fluid Dynamics 76B03, 76W05 |
| url | https://arxiv.org/abs/2505.17817 |