Fractional power series and the method of dominant balances

Chapman, HP; Wynn, HP

Fractional power series and the method of dominant balances

Chapman, HP; Wynn, HP

Authors

Christopher Chapman c.j.chapman@keele.ac.uk

HP Wynn

Abstract

This paper derives an explicit formula for a type of fractional power series, known as a Puiseux series, arising in a wide class of applied problems in the physical sciences and engineering. Detailed consideration is given to the gaps which occur in these series (lacunae); they are shown to be determined by a number-theoretic argument involving the greatest common divisor of a set of exponents appearing in the Newton polytope of the problem, and by two number-theoretic objects, called here Sylvester sets, which are complements of Frobenius sets. A key tool is Faà di Bruno’s formula for high derivatives, as implemented by Bell polynomials. Full account is taken of repeated roots, of arbitrary multiplicity, in the leading-order polynomial which determines a fractional-power expansion, namely the facet polynomial. For high multiplicity, the fractional powers are shown to have large denominators and contain irregularly spaced gaps. The orientation and methods of the paper are those of applications, but in a concluding section we draw attention to a more abstract approach, which is beyond the scope of the paper.

Citation

Chapman, H., & Wynn, H. (2021). Fractional power series and the method of dominant balances. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 20200646 - 20200646

Acceptance Date	Jan 18, 2021
Publication Date	Feb 24, 2021
Journal	Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences
Print ISSN	1364-5021
Publisher	The Royal Society
Pages	20200646 - 20200646
Public URL	https://keele-repository.worktribe.com/output/424627
Publisher URL	https://royalsocietypublishing.org/doi/10.1098/rspa.2020.0646