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Carathéodory-Fejér problem

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The problem of extending a polynomial in $ z $ to a power series representing a regular function in the disc $ | z | < 1 $ which realizes the least value of the supremum of the modulus on the disc $ | z | < 1 $ in the class of all regular functions in the unit disc having the given polynomial as initial segment of the MacLaurin series. The solution to this problem is given by the following theorem.

Carathéodory–Fejér theorem [1]. Let

$$ P (z) = c _ {0} + c _ {1} z + \dots + c _ {n-1} z ^ {n-1} $$

be a given polynomial, $ P (z) \not\equiv 0 $. There exists a unique rational function $ R (z) = R ( z , c _ {0} \dots c _ {n-1} ) $ of the form

$$ R (z) = \lambda \frac{\overline \alpha \; _ {n-1} + \overline \alpha \; _ {n-2} z + \dots + \overline \alpha \; _ {0} z ^ {n-1} }{\alpha _ {0} + \alpha _ {1} z + \dots + \alpha _ {n-1} z ^ {n-1} } ,\ \ \lambda > 0 , $$

regular in the unit disc and having $ c _ {0} \dots c _ {n-1} $ as the first $ n $ coefficients of its MacLaurin expansion. This function, and only this, realizes the minimum value of

$$ M _ {f} = \ \sup _ {| z | < 1 } \ | f (z) | $$

in the class of all regular functions $ f (z) $ in the unit disc of the form

$$ f (z) = P (z) + a _ {n} z ^ {n} + \dots , $$

and this minimum value is $ \lambda = \lambda ( c _ {0} \dots c _ {n-1} ) $.

The number $ \lambda ( c _ {0} \dots c _ {n-1} ) $ is equal to the largest positive root of the following equation of degree $ 2 n $:

$$ \left | \begin{array}{cccccccc} - \lambda & 0 &\dots & 0 &c _ {0} &c _ {1} &\dots &c _ {n-1} \\ 0 &- \lambda &\dots & 0 & 0 &c _ {0} &\dots &c _ {n-2} \\ \cdot &\cdot &\dots &\cdot &\cdot &\cdot &\dots &\cdot \\ 0 & 0 &\dots &- \lambda & 0 & 0 &\dots &c _ {0} \\ \overline{c}\; _ {0} & 0 &\dots & 0 &- \lambda & 0 &\dots & 0 \\ \overline{c}\; _ {1} &\overline{c}\; _ {0} &\dots & 0 & 0 &- \lambda &\dots & 0 \\ \cdot &\cdot &\dots &\cdot &\cdot &\cdot &\dots &\cdot \\ \overline{c}\; _ {n-1} &\overline{c}\; _ {n-2} &\dots &c bar _ {0} & 0 & 0 &\dots &- \lambda \\ \end{array} \right | = 0 . $$

If $ c _ {0} \dots c _ {n-1} $ are real, then $ \lambda ( c _ {0} \dots c _ {n-1} ) $ is the largest of the absolute values of the roots of the following equation of degree $ n $:

$$ \left | \begin{array}{ccccc} - \lambda & 0 &\dots & 0 &c _ {0} \\ 0 &- \lambda &\dots &c _ {0} &c _ {1} \\ \cdot &\cdot &\dots &\cdot &\cdot \\ \cdot &\cdot &\dots &\cdot &\cdot \\ c _ {0} &c _ {1} &\dots &c _ {n-1} &- \lambda \\ \end{array} \right | = 0 . $$

References

[1] C. Carathéodory, L. Fejér, "Ueber den Zusammenhang der Extremen von harmonischen Funktionen mit ihren Koeffizienten und den Picard–Landau'schen Satz" Rend. Circ. Mat. Palermo , 32 (1911) pp. 218–239
[2] G.M. Goluzin, "Geometric theory of functions of a complex variable" , Transl. Math. Monogr. , 26 , Amer. Math. Soc. (1969) (Translated from Russian)
How to Cite This Entry:
Carathéodory-Fejér problem. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Carath%C3%A9odory-Fej%C3%A9r_problem&oldid=23218
This article was adapted from an original article by G.V. Kuz'mina (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article