Skip to main content

All Questions

Filter by
Sorted by
Tagged with
0 votes
2 answers
215 views

Papers related to a diophantine equations about Magic square of squares for $n=3$

The open problem of magic squares of squares explained here. Consider the following magic square of squares: $$ \begin{aligned} &a^2&b^2&&c^2\\\\ &d^2&e^2&&f^2\\\\ &...
1 vote
0 answers
106 views

Mahler's proof of $S$-unit equation

Many modern proofs of the (ineffective) finiteness of solutions of the $S$-unit equation $x+y=1$ use Roth's theorem. In particular it is used Lang's version of Roth's theorem which takes in account ...
7 votes
3 answers
611 views

Question on a crucial lemma in Euler's approach to Fermat's Last Theorem for $n=3$

As many of you may know, the illustrious L. Euler put forward a proof of the case $n=3$ of Fermat's Last Theorem via infinite descent. The thing is that, at a certain point, he resorted to the ...
1 vote
1 answer
364 views

Good references to study Baker's theory

I am studying diophantine equations and I need the theory of Bakers, Can you advise me about good books, or lectures on Baker's theory?
0 votes
1 answer
346 views

Upper bounds for solutions to a Pell-like equation

Let $N$ be a fixed positive integer that is not a square and $m$ be any nonzero integer. Let $x$ and $y$ be positive integers that solve $$x^2 - N y^2 = m^2$$ with $x + y$ minimal (in light of the ...
4 votes
0 answers
332 views

Diophantine equations over cyclotomic fields

Let $\mathbb{Q}^{\text{ab}}$ be the compositum of all finite abelian extensions of $\mathbb{Q}$. Explicitly, $\mathbb{Q}^{\text{ab}}$ is the field obtained from $\mathbb{Q}$ by adjoining all roots of ...