Algebra and Algebraic Geometry Seminar Spring 2024: Difference between revisions

From UW-Math Wiki
Jump to navigation Jump to search
mNo edit summary
No edit summary
 
(23 intermediate revisions by 3 users not shown)
Line 1: Line 1:
The seminar normally meets 2:30-3:30pm on Fridays, in the room Van Vleck B321.
The seminar normally meets 2:30-3:30pm on Fridays, in the room '''Van Vleck''' '''B139'''.
[[Algebra and Algebraic Geometry Seminar|Current semester]]
==Algebra and Algebraic Geometry Mailing List==
==Algebra and Algebraic Geometry Mailing List==
*Please join the AGS mailing list by sending an email to ags+join@g-groups.wisc.edu to hear about upcoming seminars, lunches, and other algebraic geometry events in the department  (it is possible you must be on a math department computer to use this link).
*Please join the AGS mailing list by sending an email to ags+subscribe@g-groups.wisc.edu to hear about upcoming seminars, lunches, and other algebraic geometry events in the department  (it is possible you must be on a math department computer to use this link).
==Spring 2024 Schedule==
==Spring 2024 Schedule==
{| cellpadding="8"
{| cellpadding="8"
Line 11: Line 12:
|February 16
|February 16
|Sean Cotner (Michigan)
|Sean Cotner (Michigan)
|[[Algebra and Algebraic Geometry Seminar Spring 2024#Sean Cotner|Schemes of homomorphisms]]
|[[#Sean Cotner|Schemes of homomorphisms]]
|Josh
|Josh
|-
|-
|February 23
|February 23
|[https://sites.google.com/view/ylf/ Lingfei Yi (Minnesota)]
|[https://sites.google.com/view/ylf/ Lingfei Yi (Minnesota)]
|[[Algebra and Algebraic Geometry Seminar Spring 2024#Lingfei Yi|Slices in the loop spaces of symmetric varieties]]
|[[#Lingfei Yi|Slices in the loop spaces of symmetric varieties]]
|Dima/Josh
|Dima/Josh
|-
|-
|March 18 ('''Monday''')
|March 1
|Marton Hablicsek
|Shravan Patankar (UIC)
|TBA
|[[#Shravan Patankar|The absolute integral closure in equicharacteristic zero]]
|Andrei/Dima
|Dima/Josh
|-
|March 18 ('''Monday''') 2:30-3:30pm in '''B123'''
|[https://www.universiteitleiden.nl/en/staffmembers/marton-hablicsek Marton Hablicsek] (Leiden University)
|[[#Marton Hablicsek|A formality result for logarithmic Hochschild (co)homology]]
|Dima
|-
|April 19
|Teresa Yu (Michigan)
|[[#Teresa Yu|Standard monomial theory modulo Frobenius in characteristic two]]
|Dima/Jose
|-
|-
|March 29
|May 2 ('''Thursday''') '''3:30-4:30pm''' in '''B321'''
|TBA
|John Cobb (UW)
|TBA
|[[#John Cobb|Multigraded Stillman’s Conjecture]]
|Josh
|local
|}
|}


==Abstracts==
==Abstracts==
===Sean Cotner===
===Sean Cotner===
'''Schemes of homomorphisms'''


==== '''Schemes of homomorphisms''' ====
Given two algebraic groups G and H, it is natural to ask whether the set Hom(G, H) of homomorphisms from G to H can be parameterized in a useful way. In general, this is not possible, but there are well-known partial positive results (mainly due to Grothendieck). In this talk I will describe essentially optimal conditions on G and H under which Hom(G, H) is a scheme. There will be many examples, and we will see how a geometric perspective on Hom(G, H) can be useful in studying concrete questions. Time permitting, I will discuss some aspects of the theory of Hom schemes over a base.
Given two algebraic groups G and H, it is natural to ask whether the set Hom(G, H) of homomorphisms from G to H can be parameterized in a useful way. In general, this is not possible, but there are well-known partial positive results (mainly due to Grothendieck). In this talk I will describe essentially optimal conditions on G and H under which Hom(G, H) is a scheme. There will be many examples, and we will see how a geometric perspective on Hom(G, H) can be useful in studying concrete questions. Time permitting, I will discuss some aspects of the theory of Hom schemes over a base.


=== Lingfei Yi ===
===Lingfei Yi===
'''Slices in the loop spaces of symmetric varieties'''


==== '''Slices in the loop spaces of symmetric varieties''' ====
Let X be a symmetric variety. J. Mars and T. Springer constructed conical transversal slices to the closure of Borel orbits on X and used them to show that the IC-complexes for the orbit closures are pointwise pure. This is an important geometric ingredient in their work providing a more geometric approach to the results of Lusztig-Vogan. In the talk, I will discuss a generalization of Mars-Springer's construction of transversal slices to the setting of the loop space LX of X where we consider closures of spherical orbits on LX. I will also explain its applications to the formality conjecture in the relative Langlands duality. If time permits, I will discuss similar constructions for Iwahori orbits. This is a joint work with Tsao-Hsien Chen.
Let X be a symmetric variety. J. Mars and T. Springer constructed conical transversal slices to the closure of Borel orbits on X and used them to show that the IC-complexes for the orbit closures are pointwise pure. This is an important geometric ingredient in their work providing a more geometric approach to the results of Lusztig-Vogan. In the talk, I will discuss a generalization of Mars-Springer's construction of transversal slices to the setting of the loop space LX of X where we consider closures of spherical orbits on LX. I will also explain its applications to the formality conjecture in the relative Langlands duality. If time permits, I will discuss similar constructions for Iwahori orbits. This is a joint work with Tsao-Hsien Chen.
===Shravan Patankar===
'''The absolute integral closure in equicharacteristic zero'''
In spite of being large and non noetherian, the absolute integral closure of a domain R, R^{+}, carries great importance in positive characteristic commutative algebra and algebraic geometry. Recent advances due to Bhatt hint at a similar picture in mixed characteristic. In equicharacteristic zero however, this object seems largely unexplored. We answer a series of natural questions which suggest that it might play a similar central role in the study of singularities and algebraic geometry in equicharacteristic zero. More precisely, we show that it is rarely coherent, and facilitates a characterization of regular rings similar to Kunz's theorem. Both of these results, have in turn, applications back to positive characteristics.
===Marton Hablicsek===
'''A formality result for logarithmic Hochschild (co)homology'''
Hochschild homology is a foundational invariant for associate algebras, schemes, stacks, etc. For smooth and proper varieties X over a field of characteristic 0, Hochschild homology and its variants, like cyclic homology, are closely related to Hodge cohomology and to de Rham cohomology. For affine schemes, the Hochschild invariants are, in general, infinite dimensional. In this talk, we extend Hochschild homology to logarithmic schemes, in particular to compactifications, i.e, to pairs (X,D) where X is a smooth and proper variety and D is a simple normal crossing divisor. Using the formality theorem of Arinkin and Căldăraru, we recover an HKR isomorphism for logarithmic schemes relating logarithmic Hochschild homology to logarithmic differential forms. I will also discuss simple applications of our framework. This is a joint work with Francesca Leonardi and Leo Herr.
===Teresa Yu===
'''Standard monomial theory modulo Frobenius in characteristic two'''
Over a field of characteristic zero, standard monomial theory and determinantal ideals provide an explicit decomposition of polynomial rings into simple GL_n-representations, which have characters given by Schur polynomials. In this talk, we present work towards developing an analogous theory for polynomial rings over a field of characteristic two modulo a Frobenius power of the maximal ideal generated by all variables. In particular, we obtain a filtration by modular GL_n-representations whose characters are given by certain truncated Schur polynomials, thus proving a conjecture by Gao-Raicu-VandeBogert in the characteristic two case. This is joint work with Laura Casabella.
===John Cobb===
'''Multigraded Stillman’s Conjecture'''
In 2000, Mike Stillman conjectured that the projective dimension of a homogeneous ideal in a standard graded polynomial ring can be bounded just in terms of the number and degrees of its generators. I’ll describe the Ananyan-Hochster principle important to its proof, how to package this up using ultraproducts, and use this to characterize the polynomial rings graded by any abelian group that possess a Stillman bound.

Latest revision as of 21:58, 26 September 2024

The seminar normally meets 2:30-3:30pm on Fridays, in the room Van Vleck B139. Current semester

Algebra and Algebraic Geometry Mailing List

  • Please join the AGS mailing list by sending an email to ags+subscribe@g-groups.wisc.edu to hear about upcoming seminars, lunches, and other algebraic geometry events in the department (it is possible you must be on a math department computer to use this link).

Spring 2024 Schedule

date speaker title host/link to talk
February 16 Sean Cotner (Michigan) Schemes of homomorphisms Josh
February 23 Lingfei Yi (Minnesota) Slices in the loop spaces of symmetric varieties Dima/Josh
March 1 Shravan Patankar (UIC) The absolute integral closure in equicharacteristic zero Dima/Josh
March 18 (Monday) 2:30-3:30pm in B123 Marton Hablicsek (Leiden University) A formality result for logarithmic Hochschild (co)homology Dima
April 19 Teresa Yu (Michigan) Standard monomial theory modulo Frobenius in characteristic two Dima/Jose
May 2 (Thursday) 3:30-4:30pm in B321 John Cobb (UW) Multigraded Stillman’s Conjecture local

Abstracts

Sean Cotner

Schemes of homomorphisms

Given two algebraic groups G and H, it is natural to ask whether the set Hom(G, H) of homomorphisms from G to H can be parameterized in a useful way. In general, this is not possible, but there are well-known partial positive results (mainly due to Grothendieck). In this talk I will describe essentially optimal conditions on G and H under which Hom(G, H) is a scheme. There will be many examples, and we will see how a geometric perspective on Hom(G, H) can be useful in studying concrete questions. Time permitting, I will discuss some aspects of the theory of Hom schemes over a base.

Lingfei Yi

Slices in the loop spaces of symmetric varieties

Let X be a symmetric variety. J. Mars and T. Springer constructed conical transversal slices to the closure of Borel orbits on X and used them to show that the IC-complexes for the orbit closures are pointwise pure. This is an important geometric ingredient in their work providing a more geometric approach to the results of Lusztig-Vogan. In the talk, I will discuss a generalization of Mars-Springer's construction of transversal slices to the setting of the loop space LX of X where we consider closures of spherical orbits on LX. I will also explain its applications to the formality conjecture in the relative Langlands duality. If time permits, I will discuss similar constructions for Iwahori orbits. This is a joint work with Tsao-Hsien Chen.

Shravan Patankar

The absolute integral closure in equicharacteristic zero

In spite of being large and non noetherian, the absolute integral closure of a domain R, R^{+}, carries great importance in positive characteristic commutative algebra and algebraic geometry. Recent advances due to Bhatt hint at a similar picture in mixed characteristic. In equicharacteristic zero however, this object seems largely unexplored. We answer a series of natural questions which suggest that it might play a similar central role in the study of singularities and algebraic geometry in equicharacteristic zero. More precisely, we show that it is rarely coherent, and facilitates a characterization of regular rings similar to Kunz's theorem. Both of these results, have in turn, applications back to positive characteristics.

Marton Hablicsek

A formality result for logarithmic Hochschild (co)homology

Hochschild homology is a foundational invariant for associate algebras, schemes, stacks, etc. For smooth and proper varieties X over a field of characteristic 0, Hochschild homology and its variants, like cyclic homology, are closely related to Hodge cohomology and to de Rham cohomology. For affine schemes, the Hochschild invariants are, in general, infinite dimensional. In this talk, we extend Hochschild homology to logarithmic schemes, in particular to compactifications, i.e, to pairs (X,D) where X is a smooth and proper variety and D is a simple normal crossing divisor. Using the formality theorem of Arinkin and Căldăraru, we recover an HKR isomorphism for logarithmic schemes relating logarithmic Hochschild homology to logarithmic differential forms. I will also discuss simple applications of our framework. This is a joint work with Francesca Leonardi and Leo Herr.

Teresa Yu

Standard monomial theory modulo Frobenius in characteristic two

Over a field of characteristic zero, standard monomial theory and determinantal ideals provide an explicit decomposition of polynomial rings into simple GL_n-representations, which have characters given by Schur polynomials. In this talk, we present work towards developing an analogous theory for polynomial rings over a field of characteristic two modulo a Frobenius power of the maximal ideal generated by all variables. In particular, we obtain a filtration by modular GL_n-representations whose characters are given by certain truncated Schur polynomials, thus proving a conjecture by Gao-Raicu-VandeBogert in the characteristic two case. This is joint work with Laura Casabella.

John Cobb

Multigraded Stillman’s Conjecture

In 2000, Mike Stillman conjectured that the projective dimension of a homogeneous ideal in a standard graded polynomial ring can be bounded just in terms of the number and degrees of its generators. I’ll describe the Ananyan-Hochster principle important to its proof, how to package this up using ultraproducts, and use this to characterize the polynomial rings graded by any abelian group that possess a Stillman bound.