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SUPER CATALAN NUMBERS AND FOURIER SUMMATIONS OVER FINITE FIELDS

Part of: General; Abstract harmonic analysis Finite fields and commutative rings (number-theoretic aspects)

Published online by Cambridge University Press:  12 December 2022

KEVIN LIMANTA Open the ORCID record for KEVIN LIMANTA [Opens in a new window]
KEVIN LIMANTA*
Affiliation:
School of Mathematics and Statistics, University of New South Wales, Sydney, New South Wales 2052, Australia
*
e-mail: k.limanta@unsw.edu.au
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Abstract

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Keywords

super Catalan numbersFourier summationfinite fields

MSC classification

Primary: 11T06: Polynomials
Secondary: 11T55: Arithmetic theory of polynomial rings over finite fields 43-02: Research exposition (monographs, survey articles)
Type
PhD Abstract
Information
Bulletin of the Australian Mathematical Society , Volume 107 , Issue 1 , February 2023 , pp. 170
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Copyright
© The Author(s), 2022. Published by Cambridge University Press on behalf of Australian Mathematical Publishing Association Inc.

We find an algebraic interpretation of the super Catalan numbers through polynomial summation formulae over unit circles over finite fields of odd characteristic. While traditional Fourier analysis involves Riemann integration over the unit circle in the real number plane, we develop a purely algebraic integration theory without recourse to infinite procedures, and develop an algorithm for explicitly computing such Fourier sums for general monomials.

We consider three unit circles that arise from Euclidean geometry and two relativistic geometries, and demonstrate the strong relationship between the integration theory in each geometry. The algebraic integrals in the three geometries are called the Fourier summation functionals and take values in the same finite field.

The key results in this thesis are the existence and uniqueness of the Fourier summation functionals, as well as the explicit formulae for them in terms of the super Catalan numbers and their rational variants which we call the circular super Catalan numbers.

This investigation not only opens up new avenues in developing finite field harmonic analysis from a completely algebraic point of view, but also highlights many similarities to the traditional integration theory over the unit circle.

Footnotes

Thesis submitted to the University of New South Wales in March 2022; degree approved on 17 May 2022; supervisors Norman Wildberger and Daniel Chan.