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Main Authors: Garrett, Samuel, Robertson, Steven
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.14454
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author Garrett, Samuel
Robertson, Steven
author_facet Garrett, Samuel
Robertson, Steven
contents In 2004, de Mathan and Teulié stated the $p$-adic Littlewood Conjecture ($p$-$LC$) in analogy with the classical Littlewood Conjecture. Given a field $\mathbb{K}$ and an irreducible polynomial $p(t)$ with coefficients in $\mathbb{K}$, $p$-$LC$ admits a natural analogue over function fields, abbreviated to $p(t)$-$LC$ (and to $t$-$LC$ when $p(t)=t$). In this paper, an explicit counterexample to $p(t)$-$LC$ is found over fields of characteristic 5. Furthermore, it is conjectured that this Laurent series disproves $p(t)$-$LC$ over all fields of characteristic $p\equiv 1 \mod 4$. This fills a gap left by a breakthrough paper from Adiceam, Nesharim and Lunnon (2022) in which they conjecture $t$-$LC$ does not hold over all complementary fields of characteristic $p\equiv 3\mod 4$ and proving this in the case $p=3$. Supported by computational evidence, this provides a complete picture on how $p(t)$-$LC$ is expected to behave over all fields with characteristic not equal to 2. Furthermore, the counterexample to $t$-$LC$ over fields of characteristic 3 found by Adiceam, Nesharim and Lunnon is proven to also hold over fields of characteristic 7 and 11, which provides further evidence to the aforementioned conjecture. Following previous work in this area, these results are achieved by building upon combinatorial arguments and are computer assisted. A new feature of the present work is the development of an efficient algorithm (implemented in Python) that combines the theory of automatic sequences with Diophantine approximation over function fields. This algorithm is expected to be useful for further research around Littlewood-type conjectures over function fields.
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id arxiv_https___arxiv_org_abs_2405_14454
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Counterexamples to the $p(t)$-adic Littlewood Conjecture Over Small Finite Fields
Garrett, Samuel
Robertson, Steven
Number Theory
11J04, 15A15, 11B85
In 2004, de Mathan and Teulié stated the $p$-adic Littlewood Conjecture ($p$-$LC$) in analogy with the classical Littlewood Conjecture. Given a field $\mathbb{K}$ and an irreducible polynomial $p(t)$ with coefficients in $\mathbb{K}$, $p$-$LC$ admits a natural analogue over function fields, abbreviated to $p(t)$-$LC$ (and to $t$-$LC$ when $p(t)=t$). In this paper, an explicit counterexample to $p(t)$-$LC$ is found over fields of characteristic 5. Furthermore, it is conjectured that this Laurent series disproves $p(t)$-$LC$ over all fields of characteristic $p\equiv 1 \mod 4$. This fills a gap left by a breakthrough paper from Adiceam, Nesharim and Lunnon (2022) in which they conjecture $t$-$LC$ does not hold over all complementary fields of characteristic $p\equiv 3\mod 4$ and proving this in the case $p=3$. Supported by computational evidence, this provides a complete picture on how $p(t)$-$LC$ is expected to behave over all fields with characteristic not equal to 2. Furthermore, the counterexample to $t$-$LC$ over fields of characteristic 3 found by Adiceam, Nesharim and Lunnon is proven to also hold over fields of characteristic 7 and 11, which provides further evidence to the aforementioned conjecture. Following previous work in this area, these results are achieved by building upon combinatorial arguments and are computer assisted. A new feature of the present work is the development of an efficient algorithm (implemented in Python) that combines the theory of automatic sequences with Diophantine approximation over function fields. This algorithm is expected to be useful for further research around Littlewood-type conjectures over function fields.
title Counterexamples to the $p(t)$-adic Littlewood Conjecture Over Small Finite Fields
topic Number Theory
11J04, 15A15, 11B85
url https://arxiv.org/abs/2405.14454