Perelman's λ-functional and Seiberg-Witten equations

Yuguang Zhang; Fuquan Fang

doi:10.1007/s11464-007-0014-5

Perelman's λ-functional and Seiberg-Witten equations

Yuguang Zhang, Fuquan Fang

Department of Pure Mathematics

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

In this paper, we estimate the supremum of Perelman's λ-functional λ _M (g) on Riemannian 4-manifold (M, g) by using the Seiberg-Witten equations. Among other things, we prove that, for a compact Kähler-Einstein complex surface (M, J, g ₀) with negative scalar curvature, (i) if g ₁ is a Riemannian metric on M with λ _M (g ₁) = λ _M (g ₀), then Vol_g1 (M) ≥ Vol_g0 (M). Moreover, the equality holds if and only if g ₁ is also a Kähler-Einstein metric with negative scalar curvature. (ii) If {g _t}, t [-1, 1], is a family of Einstein metrics on M with initial metric g ₀, then g _t is a Kähler-Einstein metric with negative scalar curvature.

Original language	English
Pages (from-to)	191-210
Number of pages	20
Journal	Frontiers of Mathematics in China
Volume	2
Issue number	2
DOIs	https://doi.org/10.1007/s11464-007-0014-5
Publication status	Published - Jun 2007

Keywords

Perelman's λ-functional
Ricci-flow
Seiberg-Witten equations

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10.1007/s11464-007-0014-5

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title = "Perelman's λ-functional and Seiberg-Witten equations",

abstract = "In this paper, we estimate the supremum of Perelman's λ-functional λ M (g) on Riemannian 4-manifold (M, g) by using the Seiberg-Witten equations. Among other things, we prove that, for a compact K{\"a}hler-Einstein complex surface (M, J, g 0) with negative scalar curvature, (i) if g 1 is a Riemannian metric on M with λ M (g 1) = λ M (g 0), then Volg1 (M) ≥ Volg0 (M). Moreover, the equality holds if and only if g 1 is also a K{\"a}hler-Einstein metric with negative scalar curvature. (ii) If {g t}, t [-1, 1], is a family of Einstein metrics on M with initial metric g 0, then g t is a K{\"a}hler-Einstein metric with negative scalar curvature.",

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AU - Zhang, Yuguang

AU - Fang, Fuquan

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N2 - In this paper, we estimate the supremum of Perelman's λ-functional λ M (g) on Riemannian 4-manifold (M, g) by using the Seiberg-Witten equations. Among other things, we prove that, for a compact Kähler-Einstein complex surface (M, J, g 0) with negative scalar curvature, (i) if g 1 is a Riemannian metric on M with λ M (g 1) = λ M (g 0), then Volg1 (M) ≥ Volg0 (M). Moreover, the equality holds if and only if g 1 is also a Kähler-Einstein metric with negative scalar curvature. (ii) If {g t}, t [-1, 1], is a family of Einstein metrics on M with initial metric g 0, then g t is a Kähler-Einstein metric with negative scalar curvature.

AB - In this paper, we estimate the supremum of Perelman's λ-functional λ M (g) on Riemannian 4-manifold (M, g) by using the Seiberg-Witten equations. Among other things, we prove that, for a compact Kähler-Einstein complex surface (M, J, g 0) with negative scalar curvature, (i) if g 1 is a Riemannian metric on M with λ M (g 1) = λ M (g 0), then Volg1 (M) ≥ Volg0 (M). Moreover, the equality holds if and only if g 1 is also a Kähler-Einstein metric with negative scalar curvature. (ii) If {g t}, t [-1, 1], is a family of Einstein metrics on M with initial metric g 0, then g t is a Kähler-Einstein metric with negative scalar curvature.

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Perelman's λ-functional and Seiberg-Witten equations

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