Complex Monge-Ampere equations and Chern-Ricci flow on Hermitian manifolds
2014-04
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Complex Monge-Ampere equations and Chern-Ricci flow on Hermitian manifolds
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2014-04
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The regularity of weak solutions of an elliptic complex Monge-Ampere equation is studied on compact Hermitian manifolds. Using the smoothing property for the corresponding parabolic flow, a weak solution is proved to be smooth if the background Hermitian metric satisfies a compatibility condition. The Chern-Ricci flow is an evolution equation of Hermitian metrics on a complex manifold by their Chern-Ricci form. The existence and uniqueness for the Chern-Ricci flow with rough initial data is obtained on compact Hermitian manifolds satisfying a mild assumption. Then we prove the existence of weak solutions of the Chern-Ricci flow through blow downs of exceptional curves, as well as smooth convergence on compact subsets away from image points of the exceptional curves.
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University of Minnesota Ph.D. dissertation. 2014. Major: Mathematics. Advisor: Jiaping Wang. 1 computer file (PDF); 79 pages.
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Nie, Xiaolan. (2014). Complex Monge-Ampere equations and Chern-Ricci flow on Hermitian manifolds. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/191482.
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