Lynn Chua, Benjamin Gunby, Soohyun Park, Allen Yuan
Published 2014-07-11, updated 2014-08-06Version 2
It is well known that for any prime $p\equiv 3$ (mod $4$), the class numbers of the quadratic fields $\mathbb{Q}(\sqrt{p})$ and $\mathbb{Q}(\sqrt{-p})$, $h(p)$ and $h(-p)$ respectively, are odd. It is natural to ask whether there is a formula for $h(p)/h(-p)$ modulo powers of $2$. We show the formula $h(p) \equiv h(-p) m(p)$ (mod $16$), where $m(p)$ is an integer defined using the "negative" continued fraction expansion of $\sqrt{p}$. Our result solves a conjecture of Richard Guy.
Comments: 9 pages; additional background given in introduction concerning $h(p)$ and $h(-p)$ modulo small powers of 2
Congruences on the class numbers of $\mathbb{Q}(\sqrt{\pm 2p})$ for $p\equiv3$ $(\text{mod }4)$ a prime
Class numbers in cyclotomic Z_p-extensions
Quaternions, polarizations and class numbers
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