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RIGIDITY OF STATIONARY BLACK HOLES WITH SMALL ANGULAR MOMENTUM ON THE HORIZON

Author(s): Alexakis, S; Ionescu, Alexandru D; Klainerman, Sergiu

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Abstract: We prove a black hole rigidity result for slowly rotating stationary solutions of the Einstein vacuum equations. More precisely, we prove that the domain of outer communications of a regular stationary vacuum is isometric to the domain of outer communications of a Kerr solution, provided that the stationary Killing vector-field T is small (depending only on suitable regularity properties of the black hole) on the bifurcation sphere. No other global restrictions are necessary. The proof brings together ideas from our previous work with ideas from the classical work of Sudarsky and Wald on the staticity of stationary black hole solutions with zero angular momentum on the horizon. It is thus the first uniqueness result, in the framework of smooth, asymptotically flat, stationary solutions, which combines local considerations near the horizon, via Carleman estimates, with information obtained by global elliptic estimates.
Publication Date: 1-Nov-2014
Electronic Publication Date: 31-Oct-2014
Citation: Alexakis, S, Ionescu, AD, Klainerman, S. (2014). RIGIDITY OF STATIONARY BLACK HOLES WITH SMALL ANGULAR MOMENTUM ON THE HORIZON. DUKE MATHEMATICAL JOURNAL, 163 (2603 - 2615. doi:10.1215/00127094-2819517
DOI: doi:10.1215/00127094-2819517
ISSN: 0012-7094
EISSN: 1547-7398
Pages: 2603 - 2615
Type of Material: Journal Article
Journal/Proceeding Title: DUKE MATHEMATICAL JOURNAL
Version: Author's manuscript



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