The authors introduce constructions for conformal submanifold invariants and derive a Gauss-Bonnet-Chern-type formula relating renormalized area of k-dimensional minimal submanifolds in conformally compact Einstein manifolds to Euler characteristic and a weight -k scalar integral, along with a rigid
Computing renormalized curvature integrals on Poincar\'e-Einstein manifolds
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abstract
We describe a general procedure for computing renormalized curvature integrals on Poincar\'e-Einstein manifolds. In particular, we explain the connection between the Gauss-Bonnet-type formulas of Albin and Chang-Qing-Yang for the renormalized volume, and explicitly identify a scalar conformal invariant in the latter formula. Our approach constructs scalar conformal invariants of weight $-n$ on $n$-manifolds, $n \geq 8$, that are natural divergences; these imply that the scalar invariant in the Chang-Qing-Yang formula is not unique in dimension $n \geq 8$. Our procedure also produces explicit conformally invariant Gauss--Bonnet-type formulas for compact Einstein manifolds.
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math.DG 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Local and global conformal invariants of submanifolds
The authors introduce constructions for conformal submanifold invariants and derive a Gauss-Bonnet-Chern-type formula relating renormalized area of k-dimensional minimal submanifolds in conformally compact Einstein manifolds to Euler characteristic and a weight -k scalar integral, along with a rigid