Draft:Multiple Polylogarithm

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• Comment: arXiv is an open-access so need to show papers were published in a reputable peer-reviewed journal. Also publications by the same author generally count as a single source. S0091 (talk) 17:58, 24 June 2024 (UTC)

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In mathematics, the multiple polylogarithm is multivariable generalization of the polylogarithm. For special cases of it's arguments, the multiple polylogarithm reduces to the normal polylogarithm.

Definitions

The multiple polylogarithms have numerous definitions.^[1] Not all definitions are equivalent, but they are all related. Just like the polylogarithms, the multiple polylogarithm can be defined as either a recursive integral, or a convergant power series.

Recursive Integral

Define ${\displaystyle I_{\gamma }(a_{0};;z)=1}$ and for ${\displaystyle n>0}$,

${\displaystyle I_{{\gamma }({a_{0}}\to {z})}(a_{0};a_{1},a_{2},\ldots ,a_{n};z)=\int _{{\gamma }({a_{0}}\to {z})}{\frac {d\xi }{\xi -a_{n}}}I_{{\gamma }({a_{0}}\to {\xi })}(a_{0};a_{1},a_{2},\ldots ,a_{(n-1)};\xi )}$.

Where ${\displaystyle {\gamma }({a_{0}}\to {z})}$ denotes a path from ${\displaystyle a_{0}}$ to ${\displaystyle z}$, and ${\displaystyle {{\gamma }({a_{0}}\to {\xi })}}$ denotes travelling along that same path to a midway point ${\displaystyle \xi }$ . Often the subscript specifying the path is dropped.

Convergant Power Series

${\displaystyle \mathrm {Li} _{m_{1},\ldots ,m_{k}}(z_{1},\ldots ,z_{k})=\sum _{0<n_{1}<n_{2}<\cdots <n_{k}}{\frac {z_{1}^{n_{1}}z_{2}^{n_{2}}\cdots z_{k}^{n_{k}}}{n_{1}^{m_{1}}n_{2}^{m_{2}}\cdots n_{k}^{m_{k}}}}}$.^[2]

We note that this power series definition allows us a natural generalization of the known identity between the classical polylogarithm and the Riemann zeta function, ${\displaystyle \left({\text{Li}}_{n}(1)=\zeta (n)\right)}$, by invoking the multiple zeta function:

${\displaystyle \mathrm {Li} _{m_{1},\ldots ,m_{k}}(1,\ldots ,1)=\zeta (m_{1},\ldots ,m_{k})}$.

Properties

The recursive integral definition for integration beginning at a base-point ${\displaystyle a_{0}}$ can be broken up into sums and products of integrations beginning at ${\displaystyle 0}$.^[3] For example:

${\displaystyle I_{\gamma _{1}}(a_{0};a_{1},a_{2};a_{3})=I_{\gamma _{2}}(0;a_{1},a_{2};a_{3})-I_{\gamma _{3}}(0;a_{1},a_{2};a_{0})-I_{\gamma _{3}}\left[I_{\gamma _{2}}(0;a_{2};a_{3})-I_{\gamma _{3}}(0;a_{2};a_{0})\right].}$

Where ${\displaystyle \gamma _{1}}$ is a path going ${\displaystyle (a_{0}\to a_{3})}$, ${\displaystyle \gamma _{2}}$ is from ${\displaystyle (0\to a_{3})}$, ${\displaystyle \gamma _{3}}$ is from ${\displaystyle (0\to a_{0})}$, and the loop formed by traversing ${\displaystyle \gamma _{1},-\gamma _{2},{\text{ then }}\gamma _{3}}$ does not contain ${\displaystyle a_{1}}$ or ${\displaystyle a_{2}}$.

References

1. Duhr, Claude (2014-11-27). "Mathematical aspects of scattering amplitudes". p. 10. arXiv:1411.7538 [hep-ph].
2. Goncharov, A. B. (1998). "Multiple polylogarithms, cyclotomy and modular complexes". Math. Research Letters. 5 (4): 497–516. arXiv:1105.2076. doi:10.4310/MRL.1998.v5.n4.a7.
3. Duhr, Claude (2014-11-27). "Mathematical aspects of scattering amplitudes". p. 11. arXiv:1411.7538 [hep-ph].