Remarks on non-compact gradient Ricci solitons

Pigola, Stefano; Rimoldi, Michele; Setti, Alberto G.

doi:10.1007/s00209-010-0695-4

Cited by 153 publications

(166 citation statements)

References 29 publications

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“…This has been already known by Ni [30] (see the proof of Corollary 1.3 in Ni [30]). As was pointed out by the referee in April 2011, it has been also known by [34] and [35].…”

Section: Moreover If There Exists a Constant M ≥ N Such Thatmentioning

confidence: 88%

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Perelman’s entropy formula for the Witten Laplacian on Riemannian manifolds via Bakry–Emery Ricci curvature

2011

Math. Ann.

125

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In this paper, we study Perelman's W-entropy formula for the heat equation associated with the Witten Laplacian on complete Riemannian manifolds via the Bakry-Emery Ricci curvature. Under the assumption that the m-dimensional Bakry-Emery Ricci curvature is bounded from below, we prove an analogue of Perelman's and Ni's entropy formula for the W-entropy of the heat kernel of the Witten Laplacian on complete Riemannian manifolds with some natural geometric conditions. In particular, we prove a monotonicity theorem and a rigidity theorem for the W-entropy on complete Riemannian manifolds with non-negative m-dimensional Bakry-Emery Ricci curvature. Moreover, we give a probabilistic interpretation of the W-entropy for the heat equation of the Witten Laplacian on complete Riemannian manifolds, and for the Ricci flow on compact Riemannian manifolds.

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“…This has been already known by Ni [30] (see the proof of Corollary 1.3 in Ni [30]). As was pointed out by the referee in April 2011, it has been also known by [34] and [35].…”

Section: Moreover If There Exists a Constant M ≥ N Such Thatmentioning

confidence: 88%

“…See Theorem 1 in[35] or Proposition 2 in[34]. Actually, this has been proved in the proof of Corollary 1.3 in[30].…”

mentioning

confidence: 95%

Perelman’s entropy formula for the Witten Laplacian on Riemannian manifolds via Bakry–Emery Ricci curvature

2011

Math. Ann.

125

View full text Add to dashboard Cite

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“…Let u ∈ C 2 (M) be a function with u * = sup M u < +∞ and (x k ) a sequence of points on M satisfying (2.1)(i) and (2.1)(iii). It is shown in the proof of [13,Theorem 1.9…”

Section: Theorem 22 Let (M N G) Be An N-dimensional Complete Noncmentioning

confidence: 92%

“…We recall that a Riemannian manifold (M, g) is said to be stochastically complete if, for some (and hence for any) (x, t) ∈ M × (0, +∞) one has M p(x, y, t) dy = 1, where p(x, y, t) is the minimal heat kernel of the Laplace-Beltrami operator . It is well known that any Riemannian manifold satisfying the Omori-Yau maximum principle is stochastically complete [13]. In fact, stochastic completeness is equivalent to the Riemannian manifold to satisfy the weak maximum principle, that is (2.1)(i) and (2.1)(iii).…”

Section: Theorem 22 Let (M N G) Be An N-dimensional Complete Noncmentioning

confidence: 97%