IMAL 13325
INSTITUTO DE MATEMATICA APLICADA DEL LITORAL "DRA. ELEONOR HARBOURE"
Unidad Ejecutora - UE
artículos
Título:
A look at BMO(phi)(w) through Carleson measures
Autor/es:
ELEONOR HARBOURE; OSCAR SALINAS; BEATRIZ VIVIANI
Revista:
JOURNAL OF FOURIER ANALYSIS AND APPLICATIONS
Editorial:
Springer
Referencias:
Año: 2007 vol. 13 p. 267 - 284
ISSN:
1069-5869
Resumen:
As Fefferman and Stein showed, there is a tight connection between Carleson measures and BMO functions. In this work we extend this type of results to the more general scope of the BMO´(!) spaces. As a by product a weighted version of the TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. work we extend this type of results to the more general scope of the BMO´(!) spaces. As a by product a weighted version of the TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. work we extend this type of results to the more general scope of the BMO´(!) spaces. As a by product a weighted version of the TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. work we extend this type of results to the more general scope of the BMO´(!) spaces. As a by product a weighted version of the TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. between Carleson measures and BMO functions. In this work we extend this type of results to the more general scope of the BMO´(!) spaces. As a by product a weighted version of the TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. work we extend this type of results to the more general scope of the BMO´(!) spaces. As a by product a weighted version of the TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. work we extend this type of results to the more general scope of the BMO´(!) spaces. As a by product a weighted version of the TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. work we extend this type of results to the more general scope of the BMO´(!) spaces. As a by product a weighted version of the TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. between Carleson measures and BMO functions. In this work we extend this type of results to the more general scope of the BMO´(!) spaces. As a by product a weighted version of the TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. work we extend this type of results to the more general scope of the BMO´(!) spaces. As a by product a weighted version of the TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. work we extend this type of results to the more general scope of the BMO´(!) spaces. As a by product a weighted version of the TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. work we extend this type of results to the more general scope of the BMO´(!) spaces. As a by product a weighted version of the TriebelLizorkin space ÿF01;2 is introduced, which turns to be isomorphic to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case. to BMO(!) as in the unweighted case.
