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A characterization of internal functions on multiply connected regions
Published online by Cambridge University Press: 22 January 2016
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The notion of internal function enters naturally in the study of factorization of function in Lumer’s Hardy spaces—see [RUB], where this aspect is developed in some detail.
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- Copyright © Editorial Board of Nagoya Mathematical Journal 1984
References
[ABR]
Abrahamse, M.B., The Pick interpolation theorem for finitely connected domains, Michigan Math. J., 26 (1979), 195–203.Google Scholar
[ALS]
Alexandrov, I.A. and Sorokin, A. S., The Schwarz problem in multiplyconnected circular domains (in Russian), Siberian Math. J., XIII no. 5 (1972), 971–1001.Google Scholar
[COW]
Coifman, R. and Weiss, G., A kernel associated with certain multiply connected domains and its applications to factorization theorems, Studia Math., XXVIII (1966), 31–68.CrossRefGoogle Scholar
[DUK I]
Dunduchenko, L.E. and Kasyanuk, S. A., Bounded analytic functions in multiply connected domains (in Ukrainian), Dokl. Akad. Nauk Ukrain. SSR, no. 2 (1959), 111–115.Google Scholar
[DUK II]
Dunduchenko, L.E. and Kasyanuk, S. A., On subclasses of analytic functions of the Nevanlinna class in n-connected circular domains (in Ukrainian) Dokl. Akad. Nauk, Ukrain. SSR, no. 9 (1959), 994–948.Google Scholar
[DUK III]
Dunduchenko, L.E. and Kasyanuk, S. A., Functions of bounded type in a circular annulus, Acad. R. P. Romine An. Romino-Soviet Ser. Mat.-Fiz (3) (1962) no. 2 (41) 63–81.Google Scholar
[DUN]
Dunduchenko, L.E., On the changing of certain analytic functions so that they become single-valued in multiply-connected domains (In Russian) Math. USSR-Sb., 67 (109): 1 (1965), 3–15.Google Scholar
[FIS]
Fisher, Stephen D., Function Theory on Planar Domains, John Wiley and Sons, 1983.Google Scholar
[HAR]
Hasumi, Morisuke and Rubel, Lee A., Multiplication isometries of Hardy spaces and of double Hardy spaces, Hokkaido Math. J., 10 (1981), 221–241.Google Scholar
[HAS I]
Hasumi, M., Invariant subspace theorems for finite Riemann surfaces, Canad. J. Math., 18 (1966), 240–255.Google Scholar
[HAS II]
Hasumi, M., Hardy classes on plane domains, Ark. Mat., 16 (1978), 213–227.CrossRefGoogle Scholar
[HAT I]
Ya Havinson, S. and Tumarkin, G. C., The existence of a single-valued analytic function of a given class with a given modulus of boundary values in multiply-connected domains (in Russian) Izv. Akad. Nauk. SSSR, Ser. Mat., 22, No. 4, pp. 3–52.Google Scholar
[HAT II]
Ya Havinson, S. and Tumarkin, G. C., The possibility of representing a harmonic function by the Green formula in a multiply-connected domain (in Russian), Math. USSR-Sb., 44 (86): 2 (1958), 225–234.Google Scholar
[HAT III]
Ya Havinson, S. and Tumarkin, G. C., Classes of analytic functions in multiply-connected domains, “Investigations in modern problems of the theory of complex-variable functions,” edited by A. I. Markushevich (in Russian), Moscow
1960.Google Scholar
[HAV]
Ya Havinson, S., Removable sets of analytic functions in the Smirnov class, sb. “Certain problems in the modern theory of functions” (in Russian), Akad. Nauk SSSR, Sib. ser. Mathem. (1976), 160–166.Google Scholar
[HEI]
Heins, M., Hardy Classes on Riemann Surfaces, Lecture Notes in Mathematics, 98 (1969), Springer-Verlag, Berlin, Heidelberg and New York.Google Scholar
[HEJ]
Hejhal, D., Classification theory for Hardy classes of analytic functions, Ann. Acad. Sci. Fenn, Ser. AI, 566, Helsinki
1973.Google Scholar
[KAS]
Kasyanuk, S.A., On functions of class A and Hg on an annulus, Math. USSR-Sb. (Mat. Sb.), 42 (84), (1967), 301–326.Google Scholar
[KHA I]
Khavinson, D.S., Factorization theorems for different classes of analytic functions in multiply-connected domains, Preprint
1981.Google Scholar
[KHA II]
Khavinson, D.S., On removal of periods of conjugate functions in multiply connected domains, Preprint
1981.Google Scholar
[KUZ]
Kuzina, T.S., Parametrization in certain classes of analytic functions in multiply-connected domains (in Russian) Izv. Vuzov, ser. Mathem. (to appear).Google Scholar
[NEV]
Neville, C.W., Invariant Subspaces of Hardy Classes on Infinitely Connected Open Surfaces, Mem. Amer. Math. Soc, 2 (1975), Number 160.Google Scholar
[ROB]
Robinson, R.M., Analytic functions in circular rings, Duke J. Math., 10 (1943), 341–354.Google Scholar
[RUB]
Rubel, Lee A., Internal-external factorization in Lumer’s Hardy spaces, Adv. in Math., to appear.Google Scholar
[SAR]
Sarason, D.E., The Hp spaces of an annulus, Mem. Amer. Math. Soc, 56 (1965), 1–78.Google Scholar
[TAM]
Tamrazov, P.M., The generalization of the Blaschke product in multiplyconnected domains (in Ukrainian), Dokl. Akad. Nauk. Ukrain. SSR, no. 7 (1962), 853–856.Google Scholar
[VOI]
Voichik, M., Ideals and invariant subspaces of analytic functions, Trans. Amer. Math. Soc, 111 (1964), 493–512.Google Scholar
[VOZ]
Voichik, M. and Zalcman, L., Inner and outer functions on Riemann surfaces, Proc. Amer. Math. Soc, 16 (1965), 1200–1204.Google Scholar
[ZAL]
Zalcman, L., Bounded analytic functions on domains of infinite connectivity, Trans. Amer. Math. Soc, 144 (1969), 241–269.Google Scholar
[ZMO]
Zmorovich, V.A., The generalization of the Schwarz formula for multiplyconnected domains (in Ukrainian), Dokl. Akad. Nauk. Ukrain. SSR, no. 4 (1962), 853–856.Google Scholar
[ZVE]
Zverovich, E.I., Boundary problems in the theory of analytic functions in the Holder classes on Riemann surfaces (in Russian) Uspehy. Mathem. Nauk. 26, No. 1, 1971, 113–179.Google Scholar
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