The Collatz map analogue in polynomial rings and in completions

Angelot Behajaina; Elad Paran

doi:https://doi.org/10.1016/j.disc.2024.114273

The Collatz map analogue in polynomial rings and in completions

Angelot Behajaina, Elad Paran

Mathematics discipline

Open University of Israel

Research output: Contribution to journal › Article › peer-review

Abstract

We study an analogue of the Collatz map in the polynomial ring R[x], where R is an arbitrary commutative ring. We prove that if R is of positive characteristic, then every polynomial in R[x] is eventually periodic with respect to this map. This extends previous works of the authors and of Hicks, Mullen, Yucas and Zavislak, who studied the Collatz map on F_p[x] and F₂[x], respectively. We also consider the Collatz map on the ring of formal power series R[[x]] when R is finite: we characterize the eventually periodic series in this ring, and give formulas for the number of cycles induced by the Collatz map, of any given length. We provide similar formulas for the original Collatz map defined on the ring Z₂ of 2-adic integers, extending previous results of Lagarias.

Original language	English
Article number	114273
Journal	Discrete Mathematics
Volume	348
Issue number	1
DOIs	https://doi.org/10.1016/j.disc.2024.114273
State	Published - Jan 2025

Keywords

Collatz map
Polynomials

All Science Journal Classification (ASJC) codes

Theoretical Computer Science
Discrete Mathematics and Combinatorics

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https://doi.org/10.1016/j.disc.2024.114273

Cite this

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title = "The Collatz map analogue in polynomial rings and in completions",

abstract = "We study an analogue of the Collatz map in the polynomial ring R[x], where R is an arbitrary commutative ring. We prove that if R is of positive characteristic, then every polynomial in R[x] is eventually periodic with respect to this map. This extends previous works of the authors and of Hicks, Mullen, Yucas and Zavislak, who studied the Collatz map on Fp[x] and F2[x], respectively. We also consider the Collatz map on the ring of formal power series R[[x]] when R is finite: we characterize the eventually periodic series in this ring, and give formulas for the number of cycles induced by the Collatz map, of any given length. We provide similar formulas for the original Collatz map defined on the ring Z2 of 2-adic integers, extending previous results of Lagarias.",

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author = "Angelot Behajaina and Elad Paran",

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year = "2025",

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AU - Paran, Elad

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N2 - We study an analogue of the Collatz map in the polynomial ring R[x], where R is an arbitrary commutative ring. We prove that if R is of positive characteristic, then every polynomial in R[x] is eventually periodic with respect to this map. This extends previous works of the authors and of Hicks, Mullen, Yucas and Zavislak, who studied the Collatz map on Fp[x] and F2[x], respectively. We also consider the Collatz map on the ring of formal power series R[[x]] when R is finite: we characterize the eventually periodic series in this ring, and give formulas for the number of cycles induced by the Collatz map, of any given length. We provide similar formulas for the original Collatz map defined on the ring Z2 of 2-adic integers, extending previous results of Lagarias.

AB - We study an analogue of the Collatz map in the polynomial ring R[x], where R is an arbitrary commutative ring. We prove that if R is of positive characteristic, then every polynomial in R[x] is eventually periodic with respect to this map. This extends previous works of the authors and of Hicks, Mullen, Yucas and Zavislak, who studied the Collatz map on Fp[x] and F2[x], respectively. We also consider the Collatz map on the ring of formal power series R[[x]] when R is finite: we characterize the eventually periodic series in this ring, and give formulas for the number of cycles induced by the Collatz map, of any given length. We provide similar formulas for the original Collatz map defined on the ring Z2 of 2-adic integers, extending previous results of Lagarias.

KW - Collatz map

KW - Polynomials

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M3 - مقالة

SN - 0012-365X

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JO - Discrete Mathematics

JF - Discrete Mathematics

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ER -

The Collatz map analogue in polynomial rings and in completions

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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