English

Monoidal Alphabets for Generalized Harmonic Sums

General Mathematics 2026-05-22 v1

Abstract

We develop a general finite-alphabet framework for Euler-type sums based on the notion of a monoidal alphabet. An alphabet of summand letters is called monoidal when it is closed under pointwise multiplication, thereby inducing the usual stuffle, or quasi-shuffle, algebra on the associated nested sums. This viewpoint places classical multiple harmonic numbers, colored harmonic sums, and several generalized Euler sums under a common structural mechanism. We focus on three fundamental families of monoidal alphabets: the ordinary power alphabet generated by nn, the affine alphabet generated by linear factors an+ban+b, and the polynomial-base alphabet generated by polynomial factors P(n)P(n). The resulting classes of multiple harmonic numbers, multiple affine harmonic numbers, and multiple polynomial-base harmonic numbers provide systematic containers for a wide range of finite and infinite Euler-type sums. We prove closure and lifting results showing that nested sums whose summands are built from these alphabets, possibly multiplied by harmonic-number factors, reduce to the corresponding finite harmonic-number objects. As consequences, the framework recovers many known Euler-sum identities and produces many new identities in a uniform way. While reduction to simpler functions remains a separate and often difficult problem, the monoidal-alphabet perspective provides a unified algebraic language for organizing, transforming, and extending harmonic-sum identities.

Keywords

Cite

@article{arxiv.2605.21525,
  title  = {Monoidal Alphabets for Generalized Harmonic Sums},
  author = {Jayanta Phadikar},
  journal= {arXiv preprint arXiv:2605.21525},
  year   = {2026}
}

Comments

108 pages, no figures, includes supplementary material