Rebecca E. Field

Visiting Assistant Professor of Mathematics

Office: J Baskin Engineering 359B
Phone: 459-2718
E-mail: field@math.ucsc.edu


This quarter (Spring 2005), I am teaching math 19B, Calculus for Engineering, Science, and Math.  The webpage for 19B is here.
Older course webpages such as math 100, introduction to proof and problem solving, Winter 2005, are here.

I've linked a copy of my cv, but a short summary is:
I am currently a visiting assistant professor (post-doc) at UC Santa Cruz.  My last job was a post-doc at University of Wisconsin-Madison and I got my PhD from the University of Chicago in August of 2000.  My BA (in mathematics and studio art) is from Bowdoin College, a small college in Brunswick, Maine. 

My research is on the interactions between algebraic geometry and algebraic topology, particularly actions of algebraic groups on varieties.  One tool to study group actions is the classifying spaces of the group, which encodes all possible actions, and one way to study these classifying spaces is to look at their invariants.  For example, if one is interested in characteristic classes of principal G bundles over smooth algebraic varieties, one would look at the Chow ring of the classifying space BG in the sense of Totaro (this is a limit of Chow rings of finite dimensional approximations of BG - the Chow ring is the ring of algebraic cycles mod rational equivalence). 

I have an exciting new paper coming out joint with Ian Grojnowski (preprints available on request) "BSO(2n) as an extension of BO(2n) by BSp(2n)" in which we show that for any cohomology theory, there is a copy of the cohomology of BSp(2n, C) sitting inside the cohomology of BSO(2n,C).  This is despite the fact that there is no map between SO(2n) and Sp(2n).  Moreover, that copy of BSp(2n) encodes the difference between the cohomology of BO(2n,C) and that of BSO(2n,C).  This is particularly nice both because BO(2n) and BSp(2n) are more thoroughly understood than BSO(2n) and because this is a very strong generalization of the Langlands transfer map from the representation ring of SO to the representation ring of Sp (recall Sp(2n) and SO(2n+1) are Langlands dual; the map of representation rings comes from SO(2n) contained in SO(2n+1)).  This transfer map gives a map from the K-theory of BSO to the K-theory of BSp (since K theory is just the representation ring completed at the augmentation ideal), but not only does it lift to all other cohomology theories, but we have a map lifting it to the level of classifying spaces, albeit in a highly non-geometric way.

The paper I am currently finishing up is an offshoot of my joint work with Grojnowski in which I explicitly compute E*BSO(2n,C) for various cohomology theories including complex cobordism.

In anyone is interested in a more detailed research summary, I'm on the job market this year, so I wrote one.

Here are links to a few preprints of the arXiv.


UC Santa Cruz - Rebecca E. Field - 1 January 2005