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THE
FIELDS INSTITUTE FOR RESEARCH IN MATHEMATICAL SCIENCES
Constraint
equations and Mass-Momentum inequalities
May 11 - 15, 2015
| Organizing
Committee |
Focus
Week Organizers |
Location |
Spyros
Alexakis, University of Toronto
Mihalis Dafermos, Princeton University
Luis Lehner, Perimeter Institute for Theoretical
Physics and University of Guelph
Harald Pfeiffer, Canadian Institute for Theoretical
Astrophysics (CITA)
Eric Poisson, University of Guelph
|
Sergio
Dain, Universidad Nacional de Córdoba
Michael Holst,University of California, San Diego
Mu-Tao
Wang,
Columbia University
|
Room
210 at The Fields Institute |
|
|
 |
 |
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|
Overview
Constraint equations, Mass-momentum inequalities. Some of the most well-known
aspects of the mathematical study of Einstein's equations are the proofs
of positivity of the ADM mass for isolated systems. This has raised the
challenge of generalizing and strengthening the control one has on the mass
to the setting of black holes. An example would be the stipulated Penrose
inequality which asserts that the size of black holes should provide a lower
bound on the mass. Originally proposed by Penrose as a form of evidence
in favor of his proposed weak cosmic censorship conjecture and what he termed
the "establishment view" on the evolution and nal state of dynamical
black holes, this inequality and its generalizations (including angular
momentum) has attracted much attention, with a resolution in the time-symmetric
case about thirteen years ago. We feel that recent progress on the dynamical
black holes might be useful in these questions. Such proposed inequalities
have been studied in conjunction with the constraint equations for space-like
initial data sets. This topic is often also studied numerically, due to
its usefulness of numerical simulations to the understanding of the dynamical
evolution of the Einstein equations. Non-uniqueness in certain formulations
of the Einstein constraint equations was rst discovered numerically. Moreover,
numerical evolutions of black holes regularly monitor the black holes for
violations of the bound of black hole spin on a Kerr black hole, as a possible
indication of violation of cosmic censorship.
Schedule
| Monday,
May 11 |
|
11:00-12:00
|
Sergio Dain, Geometric
inequalities for black holes and bodies |
|
2:00-3:00
|
Michael Holst, Overview
of the analysis frameworks for non-CMC solutions to the conformal method
equations (Part I)
slides |
|
3:00-3:30
|
Coffee Break |
|
3:30-4:30
|
Marcus Khuri, A
Mass-Angular Momentum-Charge Inequality for Multiple Black Holes, Size-Angular
Momentum-Charge Inequalities, and Existence of Black Holes |
| Tuesday, May 12 |
|
9:30-10:00
|
Michael Holst, Overview
of the analysis frameworks for non-CMC solutions to the conformal method
equations (Part II)
slides |
|
10:00-10:30
|
Hari Krishna Kunduri |
|
10:30-11:00
|
Coffee Break |
|
11:00-12:00
|
Mu-Tao Wang, Conserved
quantities in general relativity, Part I |
|
2:00-3:00
|
Sergio Dain, Geometric
inequalities for black holes and bodies, Part II |
|
3:00-3:30
|
Coffee Break |
|
3:30-4:30
|
Ye Sle Cha |
| Wednesday,
May 13 |
|
9:30-10:30
|
David Maxwell |
|
10:30-11:00
|
Coffee Break |
|
11:00-12:00
|
Gantumur Tsogtgerel, On
the Lichnerowicz equation and the prescribed scalar-mean curvature problem
in the compact-with-boundary setting |
|
2:00-2:30
|
Mu-Tao Wang, Conserved
quantities in general relativity, Part II |
|
2:30-3:00
|
Pei-Ken Hung, Gibbons-Penrose
inequality |
|
3:00-3:30
|
Coffee Break |
|
3:30-4:30
|
Po-Ning Chen |
| Thursday,
May 14 |
|
9:30-10:30
|
Lydia Bieri, Spacetime
Geometry and Radiation |
|
10:30-11:00
|
Coffee Break |
|
11:00-12:00
|
Daniel Lee,
Stability of the positive mass theorem |
|
2:00-3:00
|
Walter Simon, Initial
data for rotating cosmologies Initial data for rotating cosmologies
|
|
3:30
|
James Dilts, The conformal method on asymptotically
Euclidean manifolds |
| Friday,
May 15 |
|
9:30-10:30
|
Carla Cederbaum, Uniqueness
of static photon spheres |
|
10:30-11:00
|
Coffee Break |
|
11:00-12:00
|
Greg Galloway, Rigidity
of marginally outer trapped 2-spheres |
Participants
as of May 6, 2015
* Indicates
not yet confirmed
|
Full Name
|
University/Affiliation
|
| Aghil Alaee |
Memorial University of Newfoundland |
| Lydia Bieri |
University of Michigan |
| Carla Cederbaum |
University of Tübingen |
| Ye Sle Cha |
Freie Universität Berlin |
| Po-Ning Chen |
Columbia University |
| Sergio Dain |
Ciudad Universitaria de Córdoba |
| María Eugenia Gabach Clément |
Ciudad Universitaria |
| Greg Galloway |
University of Miami |
| Gary Gibbons |
University of Cambridge |
| Michael Holst |
University of California, San Diego |
| Marcus Khuri |
Stony Brook University |
| Hari Krishna Kunduri |
Memorial University of Newfoundland |
| Dan Lee |
Queen's College CUNY |
| David Maxwell |
University of Alaska Fairbanks |
| Volker Schlue |
University of Toronto |
| Walter Simon |
University of Vienna |
| Gantumur Tsogtgerel |
McGill University |
| Mu-Tao Wang |
Columbia University |
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