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← Revision 13 as of 2011-04-04 18:33:54 ⇥
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| Deletions are marked like this. | Additions are marked like this. |
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| || February 28th || || || || March 7th || || || || March 14th || Kevin Wilson || || |
|| February 28th || || || || March 7th || Jamie Weigandt || Emperical Evidence for an Arithmetic Analog of Nevanlinna's Five Value Theorem || || March 14th || Kevin Wilson || Elliptic curves of arbitrarily large rank( Over Function Fields) || |
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| || March 28th ||Gagan Sekhon ||Galois properties of points of finite order of an elliptic curve || || April 4th || || || |
|| March 28th || Rishikesh || L-functions in SAGE || || April 4th || Shuntaro Yamagishi || || |
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| || April 18th || || || | || April 18th || Matthew Alderson || || |
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| * Februay 14th, Daniel Kane: "A problem related to the ABC conjecture " | * February 14th, Daniel Kane: "A problem related to the ABC conjecture " |
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| * March 7th, Jamie Weigandt: "Empirical Evidence for an Arithmetic Analogue of Nevanlinna's Five Value Theorem" . . Abstract: Nevanlinna's five value theorem says that two meromorphic functions which take on five values at the same places must be identical. We discuss the Erdos-Woods conjecture, an arithmetic analogue of this theorem which arose from questions about divisibility asked by P. Erdos and questions about definability asked by J. Robinson. We discuss Langevin's proof that this conjecture would follow from the ABC conjecture and its connections with the arithmetic of elliptic curves. Using the arithmetic data gathered by the ABC@Home project, we give effective versions of Langevin's results and extend the related sequence A087914 on the OEIS. |
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| * March 28th, Gagan Sekhon: "Galois properties of points of finite order of an elliptic curve" | * March 14th, Kevin Wilson: "Elliptic curves of arbitrarily large rank" . Subtitle: Over Function Fields . Abstract: Ulrich constructed a family of elliptic curves over function fields which (provably!) attain arbitrarily large rank. I'll go over his construction and the facts about function fields which make proving such statements "easier". * March 28, Rishikesh: "Computing L-functions in SAGE" |
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| . Abstract: I will be presenting a paper by Serre, which proves that the Galois group associated to points of finite order of an elliptic curve are "as big as possible". More concretely, given an elliptic curve E/K without complex multiplication, where K is a number field, the Galois representation associated to the action on p-torsion points of E is surjective for almost all but finitely many primes p. | . Abstract: I will introduce a new L-Function class in SAGE, and give several examples on how to use it to compute L-functions. * April 4, Shuntaro Yamagishi: "Moment Polynomials for the Riemann Zeta Function". . . Abstract: I will explain how we calculated the coefficients of moment polynomials for the Riemann zeta function for k = 4,5.., 13 and numerically tested them against the moment polynomial conjecture. |
The Arithmetics Statistic graduate seminar, organized by Gagan Sekhon and Jamie Weigandt , meets Mondays from 2 to 2:50 p.m.
The current tentative schedule is below.
Date |
Speaker |
Title |
February 7th |
|
|
February 14th |
Daniel Kane |
A problem related to the ABC conjecture |
February 21st |
NO MEETING |
Washington's Birthday |
February 28th |
|
|
March 7th |
Jamie Weigandt |
Emperical Evidence for an Arithmetic Analog of Nevanlinna's Five Value Theorem |
March 14th |
Kevin Wilson |
Elliptic curves of arbitrarily large rank( Over Function Fields) |
March 21st |
|
|
March 28th |
Rishikesh |
L-functions in SAGE |
April 4th |
Shuntaro Yamagishi |
|
April 11th |
NO MEETING |
Workshop |
April 18th |
Matthew Alderson |
|
April 25th |
|
|
May 2nd |
|
|
May 9th |
|
|
May 16th |
|
|
Abstracts
- February 14th, Daniel Kane: "A problem related to the ABC conjecture "
- Abstract: The ABC conjecture says roughly that the equation A+B=C has no solutions among highly divisible relatively prime positive integers A,B,C. If we weaken what is meant by "highly divisible", there are solutions and we instead find conjectures on the asymptotic number of such solutions. In this talk we discuss techniques for extending the range in which these conjectures are known to be true.
- March 7th, Jamie Weigandt: "Empirical Evidence for an Arithmetic Analogue of Nevanlinna's Five Value Theorem"
- Abstract: Nevanlinna's five value theorem says that two meromorphic functions which take on five values at the same places must be identical. We discuss the Erdos-Woods conjecture, an arithmetic analogue of this theorem which arose from questions about divisibility asked by P. Erdos and questions about definability asked by J. Robinson. We discuss Langevin's proof that this conjecture would follow from the ABC conjecture and its connections with the arithmetic of elliptic curves. Using the arithmetic data gathered by the ABC@Home project, we give effective versions of Langevin's results and extend the related sequence A087914 on the OEIS.
- March 14th, Kevin Wilson: "Elliptic curves of arbitrarily large rank"
- Subtitle: Over Function Fields
- Abstract: Ulrich constructed a family of elliptic curves over function fields which (provably!) attain arbitrarily large rank. I'll go over his construction and the facts about function fields which make proving such statements "easier".
- March 28, Rishikesh: "Computing L-functions in SAGE"
- Abstract: I will introduce a new L-Function class in SAGE, and give several examples on how to use it to compute L-functions.
- April 4, Shuntaro Yamagishi: "Moment Polynomials for the Riemann Zeta Function".
- Abstract: I will explain how we calculated the coefficients of moment polynomials for the Riemann zeta function for k = 4,5.., 13 and numerically tested them against the moment polynomial conjecture.