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wonderich
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If $X_4$ is a non-triangulable manifold, can $X_4 \times S^1$, $X_4 \times I^1$, or $X_4 \times \mathbb{R}^1$ be a triangulable or PL manifold?

Question: If $X_4$ is a non-triangulable manifold,

  1. can $X_4 \times S^1$, $X_4 \times I^1$, or $X_4 \times \mathbb{R}^1$ be a triangulable manifold?

  2. can $X_4 \times S^1$, $X_4 \times I^1$, or $X_4 \times \mathbb{R}^1$ be a PL manifold?

(If $X_4$ spin or non-spin manifold makes a difference for the answer, then we should discuss the differences.) The $I^1$ means a 1-dimensional finite internal.


Let $X_4$ be a $4$-manifold which is NOT a triangulable manifold but only a topological manifold.


Other warm-up info:

  • If $X_4$ is the non-triangulable Freedman's E8 topological manifold, then $X_{4+𝑘}=X_4\times T^𝑘$ is triangulable, but not piecewise linear (PL).

  • Any orientable 5-manifold is triangulable.

This question is a simplified version of the previous one.

wonderich
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