# Secondary terms in asymptotics for the number of zeros of quadratic   forms over number fields

**Authors:** Jayce Robert Getz

arXiv: 1704.07701 · 2018-04-25

## TL;DR

This paper refines asymptotic estimates for the count of zeros of quadratic forms over number fields, adding a secondary term involving the inverse form, extending Heath-Brown's results beyond rational numbers.

## Contribution

It introduces a secondary term in the asymptotic formula for zeros of quadratic forms over number fields, generalizing Heath-Brown's work from rational numbers to arbitrary number fields.

## Key findings

- Derived an asymptotic with secondary term for zeros over number fields
- Identified the secondary term as a sum over zeros of the inverse quadratic form
- Extended results to the boundary case n=4

## Abstract

Let $Q$ be a nondegenerate quadratic form on a vector space $V$ of even dimension $n$ over a number field $F$. Via the circle method or automorphic methods one can give good estimates for smoothed sums over the number of zeros of the quadratic form whose coordinates are of size at most $X$ (properly interpreted). For example, when $F=\mathbb{Q}$ and $\dim V>4$ Heath-Brown has given an asymptotic of the form \begin{align} \label{HB:esti} c_1X^{n-2}+O_{Q,\varepsilon,f}(X^{n/2+\varepsilon}) \end{align} for any $\varepsilon>0$. Here $c_1 \in \mathbb{C}$ and $f \in \mathcal{S}(V(\mathbb{R}))$ is a smoothing function. We refine Heath-Brown's work to give an asymptotic of the form $$ c_1X^{n-2}+c_2X^{n/2}+O_{Q,\varepsilon,f}(X^{n/2+\varepsilon-1}) $$ over any number field. Here $c_2 \in \mathbb{C}$. Interestingly the secondary term $c_2$ is the sum of a rapidly decreasing function on $V(\mathbb{R})$ over the zeros of $Q^{\vee}$, the form whose matrix is inverse to the matrix of $Q$. We also prove analogous results in the boundary case $n=4$, generalizing and refining Heath-Brown's work in the case $F=\mathbb{Q}$.

## Full text

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## References

23 references — full list in the complete paper: https://tomesphere.com/paper/1704.07701/full.md

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Source: https://tomesphere.com/paper/1704.07701