NTS Fall 2011/Abstracts: Difference between revisions
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Abstract: tba  Abstract: tba  
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== October 13 ==  
<center>  
{ style="color:black; fontsize:100%" table border="2" cellpadding="10" width="700" cellspacing="20"  
  
 bgcolor="#F0A0A0" align="center" style="fontsize:125%"  '''Zhiwei Yun''' (MIT)  
  
 bgcolor="#BCD2EE" align="center"  Title: The probability that a curve over a finite field is smooth  
  
 bgcolor="#BCD2EE"  Abstract: Given a fixed variety over a finite field, we ask what  
proportion of hypersurfaces (effective divisors) are smooth. Poonen's  
work on Bertini theorems over finite fields answers this question when  
one considers effective divisors linearly equivalent to a multiple of  
a fixed ample divisor, which corresponds to choosing an ample ray  
through the origin in the Picard group of the variety. In this case  
the probability of smoothness is predicted by a simple heuristic  
assuming smoothness is independent at different points in the ambient  
space. In joint work with Erman, we consider this question for  
effective divisors along nef rays in certain surfaces. Here the  
simple heuristic of independence fails, but the answer can still be  
determined and follows from a richer heuristic that predicts at  
which points smoothness is independent and at which  
points it is dependent.  
}  } 
Revision as of 18:30, 24 August 2011
September 8
Alexander Fish (Madison) 
Title: Solvability of Diophantine equations within dynamically defined subsets of N 
Abstract: Given a dynamical system, i.e. a compact metric space X, a homeomorphism T (or just a continuous map) and a Borel probability measure on X which is preserved under the action of T, the dynamically defined subset associated to a point x in X and an open set U in X is {n  T^n(x) is in U} which we call the set of return times of x in U. We study combinatorial properties of sets of return times for certain types of dynamical systems for generic points x in X. Among examples of such sets are normal sets which correspond to the system X = [0,1], T(x) = 2x mod 1, Lebesgue measure, U = [0, 1/2]. We give a complete classification of linear Diophantine systems solvable within every normal set. The methods combine the probabilistic method together with the use of van der Corput's lemma. At the end of the talk we will discuss open problems 
September 15
Chung Pang Mok (McMaster) 
Title: Galois representation associated to cusp forms on GL_{2} over CM fields 
Abstract: We generalize the work of Harris–Soudry–Taylor, and constructs the compatible system of 2dimensional padic Galois representations associated to a cuspidal automorphic representation of cohomological type on GL_{2} over a CM field, whose central character satisfies an invariance condition. A localglobal compatibility statement, up to semisimplification, can also be proved in this setting. This work relies crucially on Arthur's results on lifting from the group GSp_{4} to GL_{4}.

September 22
Yifeng Liu (Columbia) 
Title: tba 
Abstract: tba 
September 29
Nigel Boston (Madison) 
Title: tba 
Abstract: tba 
October 6
Zhiwei Yun (MIT) 
Title: tba 
Abstract: tba 
October 13
Zhiwei Yun (MIT) 
Title: The probability that a curve over a finite field is smooth 
Abstract: Given a fixed variety over a finite field, we ask what
proportion of hypersurfaces (effective divisors) are smooth. Poonen's work on Bertini theorems over finite fields answers this question when one considers effective divisors linearly equivalent to a multiple of a fixed ample divisor, which corresponds to choosing an ample ray through the origin in the Picard group of the variety. In this case the probability of smoothness is predicted by a simple heuristic assuming smoothness is independent at different points in the ambient space. In joint work with Erman, we consider this question for effective divisors along nef rays in certain surfaces. Here the simple heuristic of independence fails, but the answer can still be determined and follows from a richer heuristic that predicts at which points smoothness is independent and at which points it is dependent.

October 27
Zev Klagsburn (Madison) 
Title: tba 
Abstract: tba 
November 17
Robert Harron (Madison) 
Title: tba 
Abstract: tba 
December 8
Xinwen Zhu (Harvard) 
Title: tba 
Abstract: tba 
Organizer contact information
Zev Klagsbrun
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