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The polynomial method over finite rings and fields Trainor, Charlotte
Abstract
The finite field Kakeya conjecture concerns the size of subsets of π½βΏπ² that contain a line in each direction, and is a discrete analogue of a major open problem in harmonic analysis. In 2008, Dvir found an elegant solution to this conjecture using elementary properties of polynomials. His proof popularized the polynomial method, which has proved to be a powerful strategy to tackle problems in analysis and discrete mathematics. This dissertation concerns two main research problems emerging from these areas. In the first, we consider a variant of the Kakeya problem. Besicovitch-Rado-Kinney (BRK) sets in ββΏ contain a sphere of radius π³, for each π³ > 0. It is known that such sets have dimension π― from the work of Kolasa and Wolff. We consider a discrete version of this problem. We define BRK-type sets in π½βΏπ², and establish lower bounds on the size of such sets using techniques introduced by Dvirβs proof of the finite field Kakeya conjecture. For our second main research problem, we study connections between hyperplanes and generalized polynomials in (β€/π±α΅β€)βΏ. Let πβΏ be the linear span of characteristic functions of hyperplanes in (β€/π±α΅β€)βΏ. We establish new upper bounds on the dimension of πβΏ over β€/π±β€, or equivalently, on the rank of point-hyperplane incidence matrices in (β€/π±α΅β€)βΏ over β€/π±β€. Our proof is based on a variant of the polynomial method using binomial coefficients in β€/π±α΅β€ as generalized polynomials. We also establish additional necessary conditions for a function on (β€/π±α΅β€)βΏ to be an element of πβΏ.
Item Metadata
| Title |
The polynomial method over finite rings and fields
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| Creator | |
| Supervisor | |
| Publisher |
University of British Columbia
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| Date Issued |
2024
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| Description |
The finite field Kakeya conjecture concerns the size of subsets of π½βΏπ² that contain a line in each direction, and is a discrete analogue of a major open problem in harmonic analysis. In 2008, Dvir found an elegant solution to this conjecture using elementary properties of polynomials. His proof popularized the polynomial method, which has proved to be a powerful strategy to tackle problems in analysis and discrete mathematics.
This dissertation concerns two main research problems emerging from these areas. In the first, we consider a variant of the Kakeya problem. Besicovitch-Rado-Kinney (BRK) sets in ββΏ contain a sphere of radius π³, for each π³ > 0. It is known that such sets have dimension π― from the work of Kolasa and Wolff. We consider a discrete version of this problem. We define BRK-type sets in π½βΏπ², and establish lower bounds on the size of such sets using techniques introduced by Dvirβs proof of the finite field Kakeya conjecture.
For our second main research problem, we study connections between hyperplanes and generalized polynomials in (β€/π±α΅β€)βΏ. Let πβΏ be the linear span of characteristic functions of hyperplanes in (β€/π±α΅β€)βΏ. We establish new upper bounds on the dimension of πβΏ over β€/π±β€, or equivalently, on the rank of point-hyperplane incidence matrices in (β€/π±α΅β€)βΏ over β€/π±β€. Our proof is based on a variant of the polynomial method using binomial coefficients in β€/π±α΅β€ as generalized polynomials. We also establish additional necessary conditions for a function on (β€/π±α΅β€)βΏ to be an element of πβΏ.
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| Genre | |
| Type | |
| Language |
eng
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| Date Available |
2024-07-22
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| Provider |
Vancouver : University of British Columbia Library
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| Rights |
Attribution-NonCommercial-NoDerivatives 4.0 International
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| DOI |
10.14288/1.0444192
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| URI | |
| Degree | |
| Program | |
| Affiliation | |
| Degree Grantor |
University of British Columbia
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| Graduation Date |
2024-11
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| Campus | |
| Scholarly Level |
Graduate
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| Rights URI | |
| Aggregated Source Repository |
DSpace
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Rights
Attribution-NonCommercial-NoDerivatives 4.0 International