Toric Geometry Seminar: Difference between revisions

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Sign up for the mailing list [https://hermes.ugcs.caltech.edu/cgi-bin/mailman/listinfo/toric here].
Sign up for the mailing list [https://hermes.ugcs.caltech.edu/cgi-bin/mailman/listinfo/toric here].
We meet at TBA in Sloan TBA.
== About Toric Varieties ==
A toric variety is a normal variety $X$ with a dense open algebraic torus $T\subseteq X$ so that $T$ acts on $X$ (in a way that extends $T$'s action on itself). People often imagine fixing $T$ (i.e. fixing a dimension), and then considering various ways of "partially compactifying" it to a toric variety. $T$ can be used to "sniff out" properties of $X$. For example, a regular function on $X$ restricts to a regular function on $T$. We (will) understand regular functions on $T$ very well, so a natural question to ask is, "which regular functions on $T$ come from regular functions on $X$?" By asking and answering these types of questions, one can show that toric varieties are <b>determined by a combinatorial wigit</b>, called a fan.
Much of toric geometry is devoted to building the dictionary between the combinatorics of fans (which are easy to think about) and the geometry of the corresponding toric varieties (which, at least initially, are hard to think about). The advantage of having such a dictionary at your command is that it allows you to quickly generate examples and perform calculations. Even if you are thinking about problems on non-toric varieties, working a few toric examples often reveals key insights. This approach is used to crack hard problems in algebraic geometry, but can also be used when learning the basics of the field.


==Schedule==
==Schedule==
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| '''Date'''
| '''Date'''
| '''Speaker'''
| '''Speaker'''
| '''Title'''
| '''Topic'''
|-
|-
| The Future
| The Future
| Speaker
| Speaker
| Title
| Topic
|}
|}


== Possible Topics ==
* building a fan out of a toric variety
* building a toric variety out of a fan
* Weil divisors, computing the class group
* Cartier divisors, line bundles
* cohomology
== Questions ==
* Is Chow's lemma for toric varieties clear? That is, given a fan, can it always be made dual to a polytope by subdividing some of the cones?


== References ==
== References ==

Revision as of 12:03, 14 September 2011

Sign up for the mailing list here.

We meet at TBA in Sloan TBA.

About Toric Varieties

A toric variety is a normal variety $X$ with a dense open algebraic torus $T\subseteq X$ so that $T$ acts on $X$ (in a way that extends $T$'s action on itself). People often imagine fixing $T$ (i.e. fixing a dimension), and then considering various ways of "partially compactifying" it to a toric variety. $T$ can be used to "sniff out" properties of $X$. For example, a regular function on $X$ restricts to a regular function on $T$. We (will) understand regular functions on $T$ very well, so a natural question to ask is, "which regular functions on $T$ come from regular functions on $X$?" By asking and answering these types of questions, one can show that toric varieties are determined by a combinatorial wigit, called a fan.

Much of toric geometry is devoted to building the dictionary between the combinatorics of fans (which are easy to think about) and the geometry of the corresponding toric varieties (which, at least initially, are hard to think about). The advantage of having such a dictionary at your command is that it allows you to quickly generate examples and perform calculations. Even if you are thinking about problems on non-toric varieties, working a few toric examples often reveals key insights. This approach is used to crack hard problems in algebraic geometry, but can also be used when learning the basics of the field.

Schedule

Date Speaker Topic
The Future Speaker Topic

Possible Topics

  • building a fan out of a toric variety
  • building a toric variety out of a fan
  • Weil divisors, computing the class group
  • Cartier divisors, line bundles
  • cohomology

Questions

  • Is Chow's lemma for toric varieties clear? That is, given a fan, can it always be made dual to a polytope by subdividing some of the cones?

References

.