printable pdf
比利时vs摩洛哥足彩 ,
university of california san diego

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department colloquium

noam elkies

harvard university

how many points can a curve have?

abstract:

\indent diophantine equations, one of the oldest topics of mathematical research, remains the object of intense and fruitful study. a rational solution to a system of algebraic equations is tantamount to a point with rational coordinates (briefly, a "rational point") on the corresponding algebraic variety $v$. already for $v$ of dimension 1 (an "algebraic curve"), many natural theoretical and computational questions remain open, especially when the genus $g$ of $v$ exceeds 1. (the genus is a natural measure of the complexity of $v$; for example, if $p$ is a nonconstant polynomial without repeated roots then the equation $y^2 = p(x)$ gives a curve of genus $g$ iff $p$ has degree $2g+1$ or $2g+2$.) faltings famously proved that if $g>1$ then the set of rational points is finite (mordell's conjecture), but left open the question of how its size can vary with $v$, even for fixed $g$. even for $g=2$ there are curves with literally hundreds of points; is the number unbounded? we briefly review the structure of rational points on curves of genus 0 and 1, and then report on relevant work since faltings on points on curves of genus $g > 1$.

hosts: joe buhler and cristian popescu

november 4, 2010

4:00 pm

ap&m 6402

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