During the Fall 2019 Semester, a weekly seminar will be held on General Relativity. The seminar will take place at on **Fridays at 10:30am virtually. **Please email the seminar organizers to obtain a link. This seminar is organized by Aghil Alaee.

To learn how to attend this seminar, please contact Aghil Alaee (aghil.alaee@www.guageng63.top).

The schedule will be updated below.

Date | Speaker | Title/Abstract |
---|---|---|

9/11/2020 | Dan Lee (Queens College, CUNY) Slides | Title: Bartnik minimizing initial data setsAbstract: We will review some facts about Bartnik minimizing initial data sets in the time-symmetric case, and then discuss new results on the general case obtained in joint work with Lan-Hsuan Huang of the University of Connecticut. Bartnik conjectured that these minimizers must be vacuum and admit a global Killing vector. We make partial progress toward the conjecture by proving that Bartnik minimizers must arise from so-called “null dust spacetimes” that admit a global Killing vector field. In high dimensions, we find examples that contradict Bartnik’s conjecture, as well as the “strict” positive mass theorem, though these examples have “sub-optimal” asymptotic decay rates. |

9/18/2020 | Martin Lesourd (BHI, Harvad) Video | Title: Construction of Cauchy data for the dynamical formation of apparent horizon and the Penrose InequalityAbstract: We construct a class of Cauchy initial data without (marginally) trapped surfaces whose future evolution is a trapped region bounded by an apparent horizon, i.e., a smooth hypersurface foliated by MOTS. The estimates obtained in the evolution lead to the following conditional statement: if Kerr Stability holds, then this kind of initial data yields a class of scale critical vacuum examples of Weak Cosmic Censorship and the Final State Conjecture. Moreover, owing to estimates for the ADM mass of the data and the area of the MOTS, the construction gives a fully dynamical vacuum setting in which to study the Spacetime Penrose Inequality. We show that the inequality is satisfied for an open region in the Cauchy development of this kind of initial data, which itself is controllable by the initial data. This is joint work with Nikos Athanasiou https://arxiv.org/abs/2009.03704. |

9/25/2020 | Cancelled – Math Science Literature Lectures | |

10/2/20209:00am ET | Sharmila Gunasekaran (Memorial University) Video | Title: Slow decay of waves in gravitational solitonsAbstract: Gravitational solitons are globally stationary, horizonless asymptotically flat spacetimes with positive energy. Typically they arise as classical solutions of the supergravity theories which govern the low energy sectors of string theory. They have generated attention within this context as possible classical microstate geometries of black holes. A natural question to consider is whether they are stable. In this talk, I will address the stability at the simplest level by investigating solutions to the linear wave equation in a particular soliton spacetime. I will describe a methodology, introduced by Holzegel-Smulevici to prove that massless scalar waves in a particular family of soliton spacetimes cannot decay faster than inverse logarithmically in time. The proof involves the construction of quasimodes which are approximate solutions to the wave equation. This slow decay can be attributed to the stable trapping of null geodesics and is suggestive of instability at the nonlinear level. This is joint work with Hari Kunduri. |

10/9/2020 | Carla Cederbaum (University of Tübingen)Video | Title: Explicit minimizing sequences related to the Riemannian Penrose InequalityAbstract: Following ideas by Mantoulidis and Schoen and further developments thereof by Cabrera Pacheco, McCormick, Miao, Xie (in alphabetic order) and the speaker, we construct a sequence of asymptotically flat Riemannian 3-manifolds of non-negative scalar curvature with minimal, strictly outward minimizing inner boundary. The ADM-mass converges to the minimal value permitted by the Riemannian Penrose Inequality along this sequence, yet the manifolds themselves do not converge to the Schwarzschild manifold arising as the rigidity case of the Riemannian Penrose Inequality. Instead, they converge to an explicitly given non-smooth manifold (in a suitable topology). The existence of this sequence and the precise form of the limit also have consequences for Bartnik’s quasi-local mass functional. This is joint work with Armando Cabrera Pacheco. |

10/16/2020 | Pei-Ken Hung (MIT)Video | Title: Stability of modified wave maps in spacetimes near SchwarzschildAbstract: In this talk, I will discuss a wave equation for vector fields in Schwarzschild spacetimes. The equation behaves like a damped wave equation. In particular, it allows us to show the stability of modified wave maps in spacetimes near Schwarzschild, including the Kerr spacetime. This is on-going joint work with S. Brendle. |

10/23/2020 | Jeff Jauregui (Union College)Video | Title: Scalar curvature, mass, and capacityAbstract: In a Riemannian manifold, it is well known that the scalar curvature at a point can be recovered from the volumes of small geodesic balls. We show the scalar curvature is likewise determined by the relative capacities of concentric small geodesic balls. Complementary to this, we show that the capacity of large balls can be used to detect the ADM in an asymptotically flat manifold (as inspired by Huisken’s isoperimetric mass). These results give new interpretations of scalar curvature and mass from the point of view of capacity and may be useful for low-regularity convergence problems in general relativity. |

11/6/2020 | Henri Roesch (Columbia University)Video | Title: The Isometric Embedding Problem in a Null ConeAbstract: We start by observing that the openness part of the continuity argument, as applied to the Weyl problem by C.Li-Z.Wang, holds in an arbitrary ambient geometry. We also partially generalize the argument to the n-sphere, showing that an arbitrary metric perturbation can be isometrically embedded up to a solution of the homogenous Codazzi equation. We then consider these results within an ambient three dimensional Null Cone. Specifically, given a path of metrics on the 2-sphere and an initial isometric embedding, we develop a small parameter existence and uniqueness theorem for a path of isometric embeddings. Then, after imposing asymptotic decay conditions on the Null Cone, we show that any metric on the 2-sphere can be isometrically embedded up to a scaling factor. Finally, we show the existence of a foliation of any desired metric in a neighborhood of infinity. |

11/13/2020 | Alessandro Carlotto (ETH Zurich) | Title: Constrained deformations of positive scalar curvature metricsAbstract: What manifolds support metrics of positive scalar curvature? What can one say about the associated moduli space, when not empty? These are two fundamental problems in Riemannian Geometry, for which great progress has been made over the last fifty years, but that are nevertheless highly elusive and far from being fully resolved.Partly motivated by the study of initial data sets for the Einstein equations in General Relativity, I will present some results that aim at moving one step further, studying the interplay between two different curvature conditions, given by pointwise conditions on the scalar curvature of a manifold and the mean curvature of its boundary. In particular, after a broad contextualization, I will focus on recent joint work with Chao Li (Princeton University), where we give a complete topological characterization of those compact 3-manifolds that support Riemannian metrics of positive scalar curvature and mean-convex boundary and, in any such case, we prove that the associated moduli space of metrics is path-connected. We can also refine our methods so to construct continuous paths of non-negative scalar curvature metrics with minimal boundary, and to obtain analogous conclusions in that context as well. In particular, we thereby derive the path-connectedness of asymptotically flat scalar flat Riemannian 3-manifolds with minimal boundary, which goes in the direction of investigating (from a global perspective) the space of vacuum black-hole solutions to the Einstein field equations.Our work relies on a combination of earlier fundamental contributions by Schoen-Yau and Gromov-Lawson, on the smoothing procedure designed by Miao to handle singular interfaces, and on the interplay of Perelman’s Ricci flow with surgery and conformal deformation techniques introduced by Codá Marques in dealing with closed manifolds. |

11/20/2020 | Yuguang Shi (Peking University) | Title: On Gromov’s conjecture of fill-ins with nonnegative scalar curvature (II) View a PDF of the abstract here. |

Information about last year’s seminar can be found **here.**