Akademik Veri Yönetim Sistemi
Tezin Türü: Doktora
Tezin Yürütüldüğü Kurum: Orta Doğu Teknik Üniversitesi, Fen Bilimleri Enstitüsü, Fen Bilimleri Enstitüsü, Türkiye
Tezin Onay Tarihi: 2017
Öğrenci: ELİF UYANIK
Danışman: MURAT HAYRETTİN YURDAKUL
Özet:In this thesis we study on bounded and unbounded operators and obtain some results by considering $ell$-K"{o}the spaces. As a beginning, we introduce some necessary and sufficient conditions for a Cauchy Product map on a smooth sequence space to be continuous and linear and we consider its transpose. We use the modified version of Zahariuta's method to obtain analogous results for isomorphic classification of Cartesian products of K"{o}the spaces. We also investigate the SCBS property and show that all separable Fr{'e}chet-Hilbert spaces have this property. By the help of this result, we obtain that the bounded perturbation of an automorphism on a separable Fr{'e}chet-Hilbert space still takes place up to a complemented Hilbert subspace. We also show that the strong dual of a Fr{'e}chet-Hilbert space has the SCBS property. After that, we consider $ell$-K"{o}the spaces and obtain necessary and sufficient condition for every continuous linear operator from a Fr{'e}chet space to $ell$-K"{o}the space to be bounded. In addition, we obtain a sufficient condition when each continuous linear operator from a Fr{'e}chet space $X$ to $ell$-K"{o}the space $lambda^{ell_3}(C)$ that factors over the projective tensor product of $ell$-K"{o}the spaces $lambda^{ell_1}(A) hat{otimes}_{pi} lambda^{ell_2}(B)$ is bounded when $lambda^{ell_1}(A)$ and $lambda^{ell_2}(B)$ are nuclear. We show that if there exists a continuous linear unbounded operator between $ell$-K"{o}the spaces, then there exists a continuous unbounded quasi-diagonal operator between them. Using this result, we study in terms of corresponding K"{o}the matrices when every continuous linear operator between $ell$-K"{o}the spaces is bounded. As an application, we observe that the existence of an unbounded operator between $ell$-K"{o}the spaces, under a splitting condition, causes the existence of a common basic subspace.