The GT seminar meets on Fridays
in Math
520, at 2 PM.

Organizer:
Walter Neumann.

Other
area seminars. Our e-mail
list. Archive of previous semesters

## Fall 2017

Date | Speaker | Title |
---|---|---|

Sept 8 | Conference for Lee Mosher, Princeton | Groups explored through geometry and dynamics |

Sept 15 | Organizational meeting | |

Sept 22 | Kyle Hayden, BC | Complex curves through a contact lens |

Sept 29 | No seminar | |

Oct 6 | Ilya Gekhtman, Yale | Counting loxodromics for actions of hyperbolic groups and other automatic groups |

Oct 13 | Jenny Wilson, Stanford | Stability in the homology of configuration spaces |

Oct 20 | Sam Taylor, Temple U. | Veering triangulations and fibered faces of 3--manifolds |

Oct 27-29 | Conference in honor of Benson Farb in Chicago | "No Boundaries: Groups in Algebra, Geometry, and Topology" |

Nov 3 | Martin Bridson, Oxford | |

Nov 10 | TBA | |

Nov 17 | Eriko Hironaka, AMS | TBA |

Dec 8 | Effie Kalfagianni, Michigan State U | TBA |

## Spring 2018

Date | Speaker | Title |
---|---|---|

TBA | Abhijit Champanerkar | TBA |

## Abstracts

**Kyle Hayden**, Boston College

Sept 22

**Title**: Complex curves through a contact lens

**Abstract**: Every four-dimensional Stein domain has a height function whose
regular level sets are contact three-manifolds. This allows us to study
complex curves in the Stein domain via their intersection with these contact
level sets, where we can comfortably apply three-dimensional tools. We use
this perspective to characterize the links in Stein-fillable contact
manifolds that bound complex curves in their Stein fillings. (Some of this
is joint work with Baykur, Etnyre, Hedden, Kawamuro, and Van Horn-Morris.)

**Ilya Gekhtman**, Yale

October 6

**Title**: Counting loxodromics for actions of hyperbolic groups and other
automatic groups

**Abstract**: We show that for arbitrary nonelementary actions $G\curvearrowright X$
of hyperbolic groups on Gromov hyperbolic spaces, translation length on average
grows linearly in word length. In particular, the proportion of loxodromic
elements in a large ball in the Cayley graph converges to 1.
This holds even when the action is not in any sense alignment preserving: for
example a dense free subgroup of $SL_2R$ acting on the hyperbolic plane, or a
hyperbolic subgroup of the mapping class group acting on the curve complex.
Along the way we described the behavior in the space $X$ of typical word geodesics
in the group: for example, with respect to the Patterson-Sullivan measure on the
boundary group, the orbit of almost every word geodesic logarithmically tracks a
geodesic in $X$.
We prove analogous counting results for more general groups, including relatively
hyperbolic groups with virtually abelian subgroups and right angled Artin and
Coxeter groups.
Our results hold more generally for automatic groups satisfying certain
properties: groups parametrized by paths in a finite directed graph. Indeed, the
automatic structure is what allows us to reduce the asymptotic geometry of the
Cayley graph of $G$ to a certain Markov chain on a finite graph and a family
of random walks on $G$ associated to vertices of the finite graph.
This is joint work with Sam Taylor and Giulio Tiozzo.

**Jenny Wilson**, Stanford

October 13

**Title**:Stability in the homology of configuration spaces

**Abstract**: This talk will illustrate some patterns in the homology of the space F_k(M) of ordered k-tuples of
distinct points in a manifold M. For a fixed manifold M, as k increases, we might expect the topology of the
configuration spaces F_k(M) to become increasingly complicated. Church and others showed, however, that when M is
connected and open, there is a representation-theoretic sense in which these configuration spaces stabilize. In
this talk I will explain these stability patterns, and how they generalize homological stability results proved by
McDuff (with a stable range due to Segal) in the 1970s. I will describe higher-order stability phenomena established
in recent work joint with Jeremy Miller.

**Sam Taylor**, Temple U

October 20

**Title**: Veering triangulations and fibered faces of
3--manifolds

**Abstract**: Agol's veering triangulation for 3-manifolds that fiber over the
circle can be obtained very explicitly, via a construction of Gueritaud,
from the stable and unstable laminations of the monodromy. We study the way
in which these triangulations interact with the curve complexes of the
surface and its subsurfaces. This allows us to examine the “profile” of
subsurface projections associated to each fiber in a fibered face of the
Thurston norm ball, obtaining some bounds that do not depend on the
complexity of the fibers.
This is joint work with Yair Minsky.

# Other relevant information.

## Previous semesters:

Spring 2017, Fall 2016, Spring 2016, Fall 2015, Spring 2015, Fall 2014, Spring 2014, Fall 2013, Spring 2013, Fall 2012, Spring 2012, Fall 2011, 2010/11, Spring 2010, Fall 2009, Spring 2009, Fall 2008, Spring 2008, Fall 2007, Spring 2007, Fall 2006.## Other area seminars.

- Columbia Symplectic Geometry/Gauge Theory Seminar
- All Columbia Math Dept Seminars
- CUNY Geometry and Topology Seminar
- CUNY Complex Analysis & Dynamics Seminar
- CUNY Magnus Seminar
- Princeton Topology Seminar.