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Linear independence criteria for generalized polylogarithms with distinct shifts

Volume 206 / 2022

Sinnou David, Noriko Hirata-Kohno, Makoto Kawashima Acta Arithmetica 206 (2022), 127-169 MSC: Primary 11J72; Secondary 11J82, 11J20, 11J61. DOI: 10.4064/aa220307-18-10 Published online: 12 December 2022

Abstract

For a given rational number $x$ and an integer $s\geq 1$, consider a generalized polylogarithmic function, often called the Lerch function, defined by $$\Phi _{s}(x,z)= \sum _{k=0}^{\infty }\frac{z^{k+1}}{(k+x+1)^s}.$$ We prove the linear independence over any number field $K$ of the numbers $1$ and $\Phi _{s_j}(x_j,\alpha _i)$ with any choice of distinct shifts $x_1,\ldots , x_d$ with $0\le x_1 \lt \cdots \lt x_d \lt 1$, as well as any choice of depths $1\leq s_1\leq r_1,\ldots , 1\leq s_d\leq r_d$, at distinct algebraic numbers $\alpha _1,\ldots ,\alpha _m\in K$ subject to a metric condition. As is usual in the theory, the points $\alpha _i$ need to be chosen sufficiently close to zero with respect to a given fixed place $v_0$ of $K$, Archimedean or finite.

This is the first linear independence result with distinct shifts $x_1, \ldots , x_d$ that allows values at different points for generalized polylogarithmic functions. Previous criteria were only for the functions with one fixed shift or at one point.

Further, we establish another linear independence criterion for values of a generalized polylogarithmic function with cyclic coefficients. Let $q\geq 1$ be an integer and $\boldsymbol{a}=(a_1,\ldots , a_q)\in K^q$ be a $q$-tuple whose coordinates are cyclic with period $q$. Consider the generalized polylogarithmic function with coefficients $$\Phi _{\boldsymbol{a},s}(x,z)=\sum _{k=0}^{\infty }\frac{a_{k+1\bmod q}\cdot z^{k+1}}{(k+x+1)^s}\enspace .$$ Under a suitable condition, we show that the values of these functions are linearly independent over $K$.

Our key tool is a new non-vanishing property for a generalized Wronskian of Hermite type associated to our explicit constructions of Padé approximants for this family of generalized polylogarithmic function.

Authors

  • Sinnou DavidInstitut de Mathématiques
    de Jussieu – Paris Rive Gauche
    CNRS UMR 7586
    Sorbonne Université
    75005 Paris, France
    and
    CNRS UMI 2000 Relax
    and
    Chennai Mathematical Institute
    Chennai 603103, India
    e-mail
  • Noriko Hirata-KohnoDepartment of Mathematics
    College of Science & Technology
    Nihon University
    Chiyoda, Tokyo, 101-8308, Japan
    e-mail
    e-mail
  • Makoto KawashimaDepartment of Liberal Arts and Basic Sciences
    College of Industrial Engineering
    Nihon University
    Narashino, Chiba, 275-8575, Japan
    e-mail

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