Quantitative concatenation for polynomial box norms
Using PET and quantitative concatenation techniques, we establish box-norm control with the "expected" directions for counting operators for general multidimensional polynomial progressions, with at most polynomial losses in the parameters. Such results are often useful first steps towards...
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| creator | Kravitz, Noah Kuca, Borys Leng, James |
| description | Using PET and quantitative concatenation techniques, we establish box-norm
control with the "expected" directions for counting operators for general
multidimensional polynomial progressions, with at most polynomial losses in the
parameters. Such results are often useful first steps towards obtaining
explicit upper bounds on sets lacking instances of given such progressions. In
the companion paper arXiv:2407.08637, we complete this program for sets in
$[N]^2$ lacking nondegenerate progressions of the form $(x, y), (x + P(z), y),
(x, y + P(z))$, where $P \in \mathbb{Z}[z]$ is any fixed polynomial with an
integer root of multiplicity $1$. |
| doi_str_mv | 10.48550/arxiv.2407.08636 |
| format | Article |
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control with the "expected" directions for counting operators for general
multidimensional polynomial progressions, with at most polynomial losses in the
parameters. Such results are often useful first steps towards obtaining
explicit upper bounds on sets lacking instances of given such progressions. In
the companion paper arXiv:2407.08637, we complete this program for sets in
$[N]^2$ lacking nondegenerate progressions of the form $(x, y), (x + P(z), y),
(x, y + P(z))$, where $P \in \mathbb{Z}[z]$ is any fixed polynomial with an
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control with the "expected" directions for counting operators for general
multidimensional polynomial progressions, with at most polynomial losses in the
parameters. Such results are often useful first steps towards obtaining
explicit upper bounds on sets lacking instances of given such progressions. In
the companion paper arXiv:2407.08637, we complete this program for sets in
$[N]^2$ lacking nondegenerate progressions of the form $(x, y), (x + P(z), y),
(x, y + P(z))$, where $P \in \mathbb{Z}[z]$ is any fixed polynomial with an
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control with the "expected" directions for counting operators for general
multidimensional polynomial progressions, with at most polynomial losses in the
parameters. Such results are often useful first steps towards obtaining
explicit upper bounds on sets lacking instances of given such progressions. In
the companion paper arXiv:2407.08637, we complete this program for sets in
$[N]^2$ lacking nondegenerate progressions of the form $(x, y), (x + P(z), y),
(x, y + P(z))$, where $P \in \mathbb{Z}[z]$ is any fixed polynomial with an
integer root of multiplicity $1$.</abstract><doi>10.48550/arxiv.2407.08636</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Mathematics - Combinatorics Mathematics - Number Theory |
| title | Quantitative concatenation for polynomial box norms |
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