Title: On the minimal compactification of the Cayley Grassmannian

Date: 11/20/2017

Time: 4:10 PM - 5:30 PM

Place: C304 Wells Hall

A 3-fold cross product operation exists only in dimensions 4
and 8. A 4-dimensional subspace of an 8 dimensional vector space is
called a Cayley plane if it is closed under the 3-fold cross product
operation. The Cayley Grassmannian is the space of all Cayley planes. It
is naturally a homogeneous space with an algebraic torus action, and it
resides in Gr(4,8). Over complex numbers, this space is not compact. In
this talk, after I talk about the necessary background, I will explain
some of the results I obtained on the minimal compactification of the
Cayley Grassmannian.

Speaker: Rachel Domagalski, Michigan State University

Title: Tree Cover Number and Maximum Semidefinite Nullity of Graphs Part 1

Date: 11/21/2017

Time: 4:10 PM - 5:00 PM

Place: C304 Wells Hall

For a given multigraph G, we can associate a complex Hermitian matrix A=[a_{ij}] as follows: a_{ij}=0 if i, j are distinct and v_i,v_j are nonadjacent, a_{ij} is nonzero if i, j are distinct and v_i,v_j are ends of a single edge, a_{ij} is a complex number if i=j or if v_i,v_j are joined by parallel edges. In this talk we consider the collection of positive semidefinite complex Hermitian matrices associated with a given multigraph G, denoted S_+(G). The minimum rank of A in S_+(G) is called the minimum semidefinite rank, denoted mr_+(G). The corresponding maximum semidefinite nullity, denoted by M_+(G), satisfies mr_+(G) + M_+(G)=|G| where |G| is the number of vertices in G.
In order to compute M_+(G) for a given graph G, certain graph parameters have been developed. One such graph parameter is called the tree cover number of G, denoted T(G). This is the minimum number of vertex disjoint simple trees occurring as induced subgraphs of G that cover all vertices of G. This parameter is easier to compute than M_+(G). Also, it has been conjectured that for any multigraph G, T(G) <= M_+(G).
In this talk, I will build the background knowledge to understanding the maximum semidefinite nullity of a graph and the tree cover number parameter.