Journal of Mathematical Sciences: Advances and Applications[1] S. N. Bernstein, On majorants of finite or quasi-finite growth,
Dokl. Akad. Nauk SSSR (NS), (Russian) 65 (1949), 117-120.
[2] J. Bourgain, New Banach space properties of the disc algebra and
Acta Math. 152(1-2) (1984), 1-48.
[3] S. V. Kislyakov and Q. Xu, Real interpolation and singular
integrals, St. Petersbg. Math. J. 8(4) (1996), 593-615.
[4] M. A. Krasnosel’skiÄ and Ja. B. RutickiÄ, Convex
Functions and Orlicz Spaces, Translated from the first Russian Edition
by Leo F. Boron, P. Noordhoff Ltd., Groningen, 1961.
[5] P. Lefèvre, D. Li, H. Queffélec and L. RodrÃguez-Piazza,
Composition operators on Hardy-Orlicz spaces, Mem. Amer. Math. Soc.
974 (2010), i-v + 74.
[6] M. Mateljević and M. Pavlović, 
of power series with positive coefficients
and Hardy spaces, Proc. Amer. Math. Soc. 87(2) (1983), 309-316.
[7] J. Musielak, Orlicz Spaces and Modular Spaces, Lecture Notes in
Mathematics, Volume 1034, Springer-Verlag, Berlin, 1983.
[8] M. Pavlović, Geometry of Complex Banach Spaces, Ph.D. Thesis,
Faculty of Mathematics, Belgrade, 1983.
[9] M. Pavlović, Integrability of vector-valued lacunary series
with
applications to function spaces, Ann. Mat. Pura Appl. 195(2) (2013),
745-762.
[10] M. Pavlović, Function Classes on the Unit Disc: An
Introduction, De Gruyter Studies in Mathematics 52, De Gruyter,
Berlin/Boston, 2014.
[11] Ch. Pommerenke, Univalent Functions, with a Chapter on Quadratic
Differentials by Gerd Jensen, Studia Mathematica/Mathematische
Lehrbücher, Band XXV, Vandenhoeck & Ruprecht, Göttingen,
1975.
[12] M. M. Rao and Z. D. Ren, Theory of Orlicz Spaces, New York etc.:
Marcel Dekker, Inc., 1991.
