[<< wikibooks] On 2D Inverse Problems/Zolotarev problem

The elliptic function
can be defined by the following integral equation:
u
=
∫
0
ξ
d
t
(
1
−
t
2
)
(
1
−
κ
2
t
2
)
.
{\displaystyle u=\int _{0}^{\xi }{\frac {dt}{\sqrt {(1-t^{2})(1-\kappa ^{2}t^{2})}}}.}
The following rational approximation problem demonstrates how fast the considered discrete models converge to their continuous analogs. The problem of optimal rational approximation of the square root on an interval was solved by Russian mathematician Zolotarev with the closed form solutions in terms of elliptic integrals, see [DIK] & [PP].
The optimal rational approximation function of order (k-1,k).
is given.
Exercise (**). Use the interlacing of zeros property to prove that the function
s
(
λ
)
=
λ
r
~
(
λ
2
)
{\displaystyle s(\lambda )=\lambda {\tilde {r}}(\lambda ^{2})}
can be written as a Stieltjes continued fraction.
The optimal approximation converges exponentially fast with the degree of the rational function.