Amitesh Datta
Published 2022-04-28Version 1
We establish a novel connection between algebraic number theory and knot theory. We show that the number of equivalence classes of integral binary quadratic forms of discriminant $t^2 - 4$ (for $t\neq \pm 2$) is equal to the number of isotopy classes of links in $\mathbb{S}^3$ with prescribed values (depending on $t$) of three classical link invariants. The equality arises from a natural algebraic correspondence between integral binary quadratic forms (of discriminant $t^2 - 4$ for $t\neq \pm 2$) and isotopy classes of links of braid index at most three. In particular, the class numbers of certain quadratic number fields precisely measure the failure of the Alexander/Jones polynomial to distinguish non-isotopic links of braid index at most three.
Eisenstein series of weight $k \geq 2$ and integral binary quadratic forms
Quadratic forms and Genus Theory : a link with 2-descent and an application to non-trivial specializations of ideal classes
Counting Square Discriminants
![QR code for arXiv:2204.13660 [math.NT]](http://oss.arxitics.com/images/favicon.svg)