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Quasianalyticity criterion of Salinas–Korenblyum type for convex domains
R. A. Gaisin Institute of Mathematics with Computing Centre UFRC RAS, 112 Chernyshevsky St., Ufa 450077, Russia
Abstract:
The quasianalyticity problem of the class $C_{I}(M_n)$ for interval $I$ is known to be solved by the Denjoy-Carleman theorem. It follows from well-known Men'shov example that not only this theorem but the very statement of the quasianalyticity problem of the class $C_{K}(M_n)$ doesn't expand on the case of arbitrary continuum $K$ of the complex plain. The quasianalyticity problem was studied for Jordan domains and rectifiable arcs including quasismooth arcs by a number of authors. We discuss in this article theorems of Denjoy-Carleman type in the convex domains of the complex plane, more precisely, connection between R. S. Yulmukhametov criterion of quasianalyticity of the Carleman class $H(D,M_n)$ for arbitrary convex domain $D$ and R. Salinas criterion for the class $H(\Delta_{\alpha},M_n)$ with angle $\Delta_{\alpha}=\{z: |\arg z|\leq\frac{\pi}{2}\alpha,\ \ 0<\alpha\leq1\}$. The problem of quasianalyticity of the class $H(D,M_n)$ is to find necessary and sufficient conditions for sequence $M_n$ and point $z_0\in\partial D$ for quasianalyticity of the class $H(D,M_n)$ at this point. The answer to question of simultaneous quasianalyticity or nonquasianalyticity these Carleman classes at a point $z=0$ has been obtained in therms of special integral condition which characterizes the degree of proximity of the domain boundaries $D$ and the angle $\Delta_{\alpha}$ in the neighbourhood of origin. Geometric interpretation of this integral condition and explicit examples illustrating essentiality of this condition are given.
Key words:
Carleman class, convex domain, Salinas criterion, integral condition of local aboutness of the boundaries.
Received: 09.05.2020
Citation:
R. A. Gaisin, “Quasianalyticity criterion of Salinas–Korenblyum type for convex domains”, Vladikavkaz. Mat. Zh., 22:3 (2020), 58–71
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https://www.mathnet.ru/eng/vmj733 https://www.mathnet.ru/eng/vmj/v22/i3/p58
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Abstract page: | 91 | Full-text PDF : | 38 | References: | 22 |
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