Spence's function

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The dilogarithm along the real axis

In mathematics, Spence's function, or dilogarithm, denoted as Li₂(z), is a particular case of the polylogarithm. Two related special functions are referred to as Spence's function, the dilogarithm itself:

\operatorname{Li}_2(z) = -\int_0^z{\ln(1-u) \over u}\, \mathrm{d}u \text{, }z \in\mathbb{C} \setminus [1,\infty)

and its reflection. For $|z|<1$ an infinite series also applies (the integral definition constitutes its analytical extension to the complex plane):

\operatorname{Li}_2(z) = \sum_{k=1}^\infty {z^k \over k^2}.

Alternatively, the dilogarithm function is sometimes defined as

\int_{1}^{v} \frac{ \ln t }{ 1 -t } \mathrm{d}t = \operatorname{Li}_2(1-v).

In hyperbolic geometry the dilogarithm $\operatorname{Li}_2(z)$ occurs as the hyperbolic volume of an ideal simplex whose ideal vertices have cross ratio $z$ . Lobachevsky's function and Clausen's function are closely related functions.

William Spence, after whom the function was named by early writers in the field, was a Scottish mathematician working in the early nineteenth century.^[1] He was at school with John Galt,^[2] who later wrote a biographical essay on Spence.

Identities

\operatorname{Li}_2(z)+\operatorname{Li}_2(-z)=\frac{1}{2}\operatorname{Li}_2(z^2)

^[3]

\operatorname{Li}_2(1-z)+\operatorname{Li}_2\left(1-\frac{1}{z}\right)=-\frac{\ln^2z}{2}

^[4]

\operatorname{Li}_2(z)+\operatorname{Li}_2(1-z)=\frac{{\pi}^2}{6}-\ln z \cdot\ln(1-z)

^[3]

\operatorname{Li}_2(-z)-\operatorname{Li}_2(1-z)+\frac{1}{2}\operatorname{Li}_2(1-z^2)=-\frac {{\pi}^2}{12}-\ln z \cdot \ln(z+1)

^[4]

\operatorname{Li}_2(z) +\operatorname{Li}_2(\frac{1}{z}) = - \frac{\pi^2}{6} - \frac{1}{2}\ln^2(-z)

^[3]

Particular value identities

\operatorname{Li}_2\left(\frac{1}{3}\right)-\frac{1}{6}\operatorname{Li}_2\left(\frac{1}{9}\right)=\frac{{\pi}^2}{18}-\frac{\ln^23}{6}

^[4]

\operatorname{Li}_2\left(-\frac{1}{2}\right)+\frac{1}{6}\operatorname{Li}_2\left(\frac{1}{9}\right)=-\frac{{\pi}^2}{18}+\ln2\cdot \ln3-\frac{\ln^22}{2}-\frac{\ln^23}{3}

^[4]

\operatorname{Li}_2\left(\frac{1}{4}\right)+\frac{1}{3}\operatorname{Li}_2\left(\frac{1}{9}\right)=\frac{{\pi}^2}{18}+2\ln2\ln3-2\ln^22-\frac{2}{3}\ln^23

^[4]

\operatorname{Li}_2\left(-\frac{1}{3}\right)-\frac{1}{3}\operatorname{Li}_2\left(\frac{1}{9}\right)=-\frac{{\pi}^2}{18}+\frac{1}{6}\ln^23

^[4]

\operatorname{Li}_2\left(-\frac{1}{8}\right)+\operatorname{Li}_2\left(\frac{1}{9}\right)=-\frac{1}{2}\ln^2{\frac{9}{8}}

^[4]

36\operatorname{Li}_2\left(\frac{1}{2}\right)-36\operatorname{Li}_2\left(\frac{1}{4}\right)-12\operatorname{Li}_2\left(\frac{1}{8}\right)+6\operatorname{Li}_2\left(\frac{1}{64}\right)={\pi}^2

Special values

\operatorname{Li}_2(-1)=-\frac{{\pi}^2}{12}

\operatorname{Li}_2(0)=0

\operatorname{Li}_2\left(\frac{1}{2}\right)=\frac{{\pi}^2}{12}-\frac{\ln^2 2}{2}

\operatorname{Li}_2(1)=\frac{{\pi}^2}{6}

\operatorname{Li}_2(2)=\frac{{\pi}^2}{4}-i\pi\ln2

\operatorname{Li}_2\left(-\frac{\sqrt5-1}{2}\right)=-\frac{{\pi}^2}{15}+\frac{1}{2}\ln^2 \frac{\sqrt5-1}{2}

=-\frac{{\pi}^2}{15}+\frac{1}{2}\operatorname{arcsch}^2 2

\operatorname{Li}_2\left(-\frac{\sqrt5+1}{2}\right)=-\frac{{\pi}^2}{10}-\ln^2 \frac{\sqrt5+1}{2}

=-\frac{{\pi}^2}{10}-\operatorname{arcsch}^2 2

\operatorname{Li}_2\left(\frac{3-\sqrt5}{2}\right)=\frac{{\pi}^2}{15}-\ln^2 \frac{\sqrt5-1}{2}

=\frac{{\pi}^2}{15}-\operatorname{arcsch}^2 2

\operatorname{Li}_2\left(\frac{\sqrt5-1}{2}\right)=\frac{{\pi}^2}{10}-\ln^2 \frac{\sqrt5-1}{2}

=\frac{{\pi}^2}{10}-\operatorname{arcsch}^2 2

In Particle Physics

Spence's Function is commonly encountered in particle physics while calculating radiative corrections. In this context, the function is often defined with an absolute value inside the logarithm:

\operatorname{\Phi}(x) = -\int_0^x \frac{\ln|1-u|}{u} \, \mathrm{d}u = \begin{cases} \operatorname{Li}_2(x), & x \leq 1; \\ \frac{\pi^2}{3} - \frac{1}{2} \ln^2(x) - \operatorname{Li}_2(\frac{1}{x}), & x > 1. \end{cases}

Notes

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References

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External links

↑ http://www-groups.dcs.st-and.ac.uk/~history/Biographies/Spence.html
↑ http://www.biographi.ca/009004-119.01-e.php?BioId=37522
↑ ^3.0 ^3.1 ^3.2 Zagier
↑ ^4.0 ^4.1 ^4.2 ^4.3 ^4.4 ^4.5 ^4.6 Weisstein, Eric W., "Dilogarithm", MathWorld.

[1]

[2]

[3]

[4]

Spence's function

Contents

Identities

Particular value identities

Special values

In Particle Physics

Notes

References

Further reading

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