Szpiro's conjecture: Difference between revisions

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imported>Richard Pinch
(Szpiro (1987))
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:<math> \max\{\vert c_4\vert^3,\vert c_6\vert^2\} \leq C(\varepsilon )\cdot f^{6+\varepsilon }. \, </math>
:<math> \max\{\vert c_4\vert^3,\vert c_6\vert^2\} \leq C(\varepsilon )\cdot f^{6+\varepsilon }. \, </math>


==References==
[[Category:Suggestion Bot Tag]]
* {{cite book | author=S. Lang | authorlink=Serge Lang | title=Survey of Diophantine geometry | publisher=[[Springer-Verlag]] | year=1997 | isbn=3-540-61223-8 | pages=51 }}
* {{cite journal | author=L. Szpiro | title=Seminaire sur les pinceaux des courbes de genre au moins deux | journal=Astérisque | volume=86 | issue=3 | year=1981 | pages=44-78 }}
* {{cite journal | author=L. Szpiro | title=Présentation de la théorie d'Arakelov | journal=Contemp. Math. | volume=67 | year=1987 | pages=279-293 | zbl=0634.14012 }}
 
==External links==
* [http://modular.fas.harvard.edu/mcs/archive/Fall2001/notes/12-10-01/12-10-01/node2.html Szpiro and ABC], notes by William Stein

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In number theory, Szpiro's conjecture concerns a relationship between the conductor and the discriminant of an elliptic curve. In a general form, it is equivalent to the well-known ABC conjecture. It is named for Lucien Szpiro who formulated it in the 1980s.

The conjecture states that: given ε > 0, there exists a constant C(ε) such that for any elliptic curve E defined over Q with minimal discriminant Δ and conductor f, we have

The modified Szpiro conjecture states that: given ε > 0, there exists a constant C(ε) such that for any elliptic curve E defined over Q with invariants c4, c6 and conductor f, we have