On the exit of the Gakhov set along the family of Avkhadiev's classes

Kazantsev A.V.

Kazan Federal University, Kazan, 420008 Russia

E-mail:  avkazantsev63@gmail.com

Received June 5, 2017

Full text PDF

Abstract

Professor F.G. Avkhadiev has played a crucial role in the formation of the finite-valence theory for the classes of holomorphic functions with bounded distortion. We call them the Avkhadiev classes, and their elements are called the Avkhadiev functions. In this paper, we have studied the connections of the above classes with the Gakhov set G consisting of all holomorphic and locally univalent functions f in the unit disk D with (no more than) the unique root of the Gakhov equation in D. In particular, for the one-parameter series of the Avkhadiev classes constructing on the rays α ln f', α ≥ 0, where |f'(ς)| ͼ (eπ/2, eπ/2), ς ͼ D, and f''(0)=0, we have shown that the Gakhov barrier (the exit value of the parameter out of G) of the given series coinsides with its Avkhadiev barrier (the exit value of the parameter out of the univalence class), and we have found the extremal family of the Avkhadiev functions. This family is characterized by the coincidence of its individual exit value out of G and the Gakhov barrier for the whole series

Keywords: Gakhov set, Gakhov equation, Gakhov width, inner mapping (conformal) radius, hyperbolic derivative, admissible functional, Avkhadiev classes, Gakhov barrier, Avkhadiev barrier

References

1. Avkhadiev F.G., Aksent'ev L.A., Elizarov A.M. Sufficient conditions for the finite-valence of analytic functions, and their applications. J. Sov. Math., 1990, vol. 49, no. 1, pp. 715–799.

2. Avkhadiev F.G. Conformal Mappings and Boundary Value Problems. Kazan, Kazan. Fond “Mat.”, 1996. 216 p. (In Russian)

3. Kazantsev A.V. On the exit out of the Gakhov set controlled by the subordination conditions. Uchenye Zapiski Kazanskogo Universiteta. Seriya Fiziko-Matematicheskie Nauki, 2014, vol. 156, no. 1, pp. 31–43. (In Russian)

4. Kazantsev A.V. On the linear connectivity of the regular part of Gakhov set. Vestn. Volgogr. Gos. Univ., Ser. 1: Mat., Fiz., 2016, no. 6, pp. 55–60. (In Russian)

5.  Lehto O.  Univalent functions, Schwarzian derivatives and quasiconformal mappings. Monogr. Enseign. Math., 1979, no. 2, pp. 73–84.

6. Goluzin G.M. Geometric Theory of Functions of a Complex Variable. Moscow, Nauka, 1966. 628 p. (In Russian)

7. Avkhadiev F.G., Aksent'ev L.A. The main results on sufficient conditions for an analytic function to be schlicht. Russ. Math. Surv., 1975, vol. 30, no. 4, pp. 1–63. doi: 10.1070/RM1975v030n04ABEH001511.

8. Aksent'ev L.A., Khokhlov Ju.E., Shirokova E.A. Uniqueness of solution of an exterior inverse boundary value problem. Math. Notes, 1978, vol. 24, no. 3, pp. 672–678.

9. Gubaydullina S.A., Kazantsev A.V. On some conditions for the uniqueness of a root of Gakhov's equation. Tr. Mat. Tsentra im. N.I. Lobachevskogo. Kazan, Kazan. Mat. O-vo., 2017, vol. 54, pp. 135–136. (In Russian)


For citation: Kazantsev A.V. On the exit of the Gakhov set along the family of Avkhadiev's classes. Uchenye Zapiski Kazanskogo Universiteta. Seriya Fiziko-Matematicheskie Nauki, 2017, vol. 159, no. 3, pp. 318–326. (In Russian)


The content is available under the license Creative Commons Attribution 4.0 License.