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Codimension one foliations with Bott-Morse singularities I

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abstract

We study codimension one (transversally oriented) foliations $\fa$ on oriented closed manifolds $M$ having non-empty compact singular set $\sing(\fa)$ which is locally defined by Bott-Morse functions. We prove that if the transverse type of $\fa$ at each singular point is a center and $\fa$ has a compact leaf with finite fundamental group or a component of $\sing(\fa)$ has codimension $\ge 3$ and finite fundamental group, then all leaves of $\fa$ are compact and diffeomorphic, $\sing(\fa)$ consists of two connected components, and there is a Bott-Morse function $f:M \to [0,1]$ such that $f\colon M \setminus \sing(\fa) \to (0,1)$ is a fiber bundle defining $\fa$ and $\sing(\fa) = f^{-1}(\{0,1\})$. This yields to a topological description of the type of leaves that appear in these foliations, and also the type of manifolds admiting such foliations. These results unify, and generalize, well known results for cohomogeneity one isometric actions and a theorem of Reeb for foliations with Morse singularities of center type. In this case each leaf of $\fa$ is a sphere fiber bundle over each component of $\sing(\fa)$.

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gr-qc 1

years

2026 1

verdicts

UNVERDICTED 1

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Gravitating Tubes Beyond World Line Paradigm In General Relativity

gr-qc · 2026-06-28 · unverdicted · novelty 7.0

The work constructs timelike tubes foliated by hypersurfaces with a brane-like action whose collective stress-energy is smooth, violates the strong energy condition inside the tube, and reduces to a point-particle action plus self-force term in the vanishing-radius limit.

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  • Gravitating Tubes Beyond World Line Paradigm In General Relativity gr-qc · 2026-06-28 · unverdicted · none · ref 35 · internal anchor

    The work constructs timelike tubes foliated by hypersurfaces with a brane-like action whose collective stress-energy is smooth, violates the strong energy condition inside the tube, and reduces to a point-particle action plus self-force term in the vanishing-radius limit.