Mathematical function
In mathematics , there are several functions known as Kummer's function . One is known as the confluent hypergeometric function of Kummer. Another one, defined below, is related to the polylogarithm . Both are named for Ernst Kummer .
Kummer's function is defined by
Λ
n
(
z
)
=
∫
0
z
log
n
−
1
|
t
|
1
+
t
d
t
.
{\displaystyle \Lambda _{n}(z)=\int _{0}^{z}{\frac {\log ^{n-1}|t|}{1+t}}\;dt.}
The duplication formula is
Λ
n
(
z
)
+
Λ
n
(
−
z
)
=
2
1
−
n
Λ
n
(
−
z
2
)
{\displaystyle \Lambda _{n}(z)+\Lambda _{n}(-z)=2^{1-n}\Lambda _{n}(-z^{2})}
Compare this to the duplication formula for the polylogarithm:
Li
n
(
z
)
+
Li
n
(
−
z
)
=
2
1
−
n
Li
n
(
z
2
)
.
{\displaystyle \operatorname {Li} _{n}(z)+\operatorname {Li} _{n}(-z)=2^{1-n}\operatorname {Li} _{n}(z^{2}).}
An explicit link to the polylogarithm is given by
Li
n
(
z
)
=
Li
n
(
1
)
+
∑
k
=
1
n
−
1
(
−
1
)
k
−
1
log
k
|
z
|
k
!
Li
n
−
k
(
z
)
+
(
−
1
)
n
−
1
(
n
−
1
)
!
[
Λ
n
(
−
1
)
−
Λ
n
(
−
z
)
]
.
{\displaystyle \operatorname {Li} _{n}(z)=\operatorname {Li} _{n}(1)\;\;+\;\;\sum _{k=1}^{n-1}(-1)^{k-1}\;{\frac {\log ^{k}|z|}{k!}}\;\operatorname {Li} _{n-k}(z)\;\;+\;\;{\frac {(-1)^{n-1}}{(n-1)!}}\;\left.}
References
Lewin, Leonard, ed. (1991), Structural Properties of Polylogarithms , Providence, RI: American Mathematical Society, ISBN 0-8218-4532-2 .Categories :
Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.
**DISCLAIMER** We are not affiliated with Wikipedia, and Cloudflare.
The information presented on this site is for general informational purposes only and does not constitute medical advice.
You should always have a personal consultation with a healthcare professional before making changes to your diet, medication, or exercise routine.
AI helps with the correspondence in our chat.
We participate in an affiliate program. If you buy something through a link, we may earn a commission 💕
↑
.
