Functions which map the interior of the unit circle upon simple regions.
Ann. of Math. 1915, 17, 12-22.
Linear differential equations of infinite order with constant coefficients and asymptotic periods of entire functions. Tr. Mat. Inst. Steklova 1951, 38, 42-67. (in Russian)
Goldberg A.A., Ostrovsky I.V.
Value distribution of meromorphic functions.
Nauka, Moscow, 1970. (in Russian)
Geometric Theory of Functions of a Complex Variable.
Amer. Math. Soc., Providence, 1969.
Vol. II. Mariner Pub. Co., 1983.
Univalent functions and nonanalytic curves.
Proc. Amer. Math. Soc. 1957, 8, 597-601.
Close-to-convex schlicht functions.
Michigan Math. J. 1952, 1 (2), 169-185.
Regularly varying functions.
Lecture Notes in Mathematics, 508, Springer-Verlag, Berlin, 1976.
Univalence of a function $f$ and its successive derivatives when $f$ satisfies a differential equation, II.
J. Math. Anal. Appl. 1989, 142, 422-430.
On two classes of positive functions and the belonging to them of main characteristics of entire functions.
Mat. Stud. 2003, 19 (1), 73-82.
Connection between the growth of the maximum of the modulus of an entire function and the moduli of the coefficients of its power series expansion.
Izv. Vyssh. Uchebn. Zaved. Mat. 1967, (2), 100--108.(in Russian)
Close-to-convexity of entire solutions of a differential equation.
Mat. Metodi Fiz.-Mekh. Polya 1999, 42 (3), 31-35. (in Ukrainian)
On properties of entire solutions of a differential equation.
Diff. Equat. 2000, 36 (8), 1155-1161.
On entire solutions of a differential equation .
Mat. stud. 2000, 14 (1), 54-58.
On the close-to-convexity of entire solutions of a differential equation.
Visnyk of the Lviv Univ. Ser. Mech. Math. 2000, 57, 88-91. (in Ukrainian)
Lectures on the general theory of integral functions.
Edouard Privat, Toulouse, 1923.