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A Dynamical Framework for the McKay Correspondence via Gauge-Theoretic Morse Flow

The McKay correspondence establishes a bijection between the cohomology of a minimal resolution and the irreducible representations of a finite subgroup $Γ\subset \text{SU}(2)$. While traditional proofs rely on static algebraic isomorphisms, we propose a dynamical framework grounded in gauge theory and Morse-Bott theory. We analyze an $S^1$-invariant Morse-Bott function on the minimal resolution, interpreting its gradient flow lines as $1$-parameter families of holonomy representations of flat connections from $Γ$ to $GL(R)$. We conjecture that the flow emanating from a critical submanifold converges asymptotically at the boundary to a specific irreducible representation of $Γ$. This dynamical process explicitly constructs the identification between the cohomology basis and the irreducible representations of $Γ$ prescribed by the McKay correspondence. We prove this conjecture for cyclic cases.

preprint2026arXivOpen access
Jiajun Yan
math.RTmath.SGmath.GTmath.DG
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Jiajun Yan

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