English

Log Conifold Transitions

Algebraic Geometry 2026-06-30 v1 Mathematical Physics Differential Geometry

Abstract

We define log conifold transitions for Fano threefold pairs of index two and study their deformation theory. Relying on the recent solution to the relative Clemens conjectures in this setting, we construct rational curves with normal bundle \OO(1)\OO(1)\OO(-1)\oplus \OO(-1) by blowing up anchored points on the boundary divisor. Contracting these curves yields a singular space with ordinary double points. We prove that local smoothings of the nodes can be lifted to global first-order deformations, and that the global deformation theory of both the log resolution space and the singular log pair is unconditionally unobstructed. Crucially, the geometry of the boundary del Pezzo surface guarantees this unobstructedness. Furthermore, unlike the classical Calabi-Yau case, the underlying Fano geometry forces the vanishing of global topological balancing conditions, allowing local first-order smoothings of the nodes to be lifted independently. As applications, we construct new non-K\"ahler threefolds via smoothings, we analyze the effective geometry of the smoothed threefolds by determining their Picard groups and proving the persistence of free curves. Finally, we study the Hodge theory of these non-K\"ahler threefolds.

Cite

@article{arxiv.2606.31072,
  title  = {Log Conifold Transitions},
  author = {Rodolfo Aguilar},
  journal= {arXiv preprint arXiv:2606.31072},
  year   = {2026}
}

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