St. Petersburg Mathematical Journal, 12. cilt,1-505. sayfalarAmerican Mathematical Society, 2001 |
Kitabın içinden
82 sonuçtan 1-3 arası sonuçlar
Sayfa 96
whence XC X ( 2 ) . In a similar way we prove that X CX ( 1 ) . Assuming that X satisfies the shrinking domain condition , we can prove a factorization theorem for the functions in X , at the same time keeping some control on the zeros ...
whence XC X ( 2 ) . In a similar way we prove that X CX ( 1 ) . Assuming that X satisfies the shrinking domain condition , we can prove a factorization theorem for the functions in X , at the same time keeping some control on the zeros ...
Sayfa 380
... prove to be quite practical ( see , e.g. , Theorem 2.1 ) . Third , the dyadic Besov spaces are closely related to the classical spaces . Dyadic spaces are wider than classical , but in [ 11 ] it was proved that any classical Besov space ...
... prove to be quite practical ( see , e.g. , Theorem 2.1 ) . Third , the dyadic Besov spaces are closely related to the classical spaces . Dyadic spaces are wider than classical , but in [ 11 ] it was proved that any classical Besov space ...
Sayfa 380
... prove to be quite practical ( see , e.g. , Theorem 2.1 ) . p Third , the dyadic Besov spaces are closely related to the classical spaces . Dyadic spaces are wider than classical , but in [ 11 ] it was proved that any classical Besov ...
... prove to be quite practical ( see , e.g. , Theorem 2.1 ) . p Third , the dyadic Besov spaces are closely related to the classical spaces . Dyadic spaces are wider than classical , but in [ 11 ] it was proved that any classical Besov ...
İçindekiler
COHOMOLOGY OF RELATIVE CELLULAR SPACES | 2 |
Cohomology of isotropic flag varieties | 19 |
10 Varieties of ideals | 28 |
Telif Hakkı | |
4 diğer bölüm gösterilmiyor
Diğer baskılar - Tümünü görüntüle
Sık kullanılan terimler ve kelime öbekleri
A₁ Abelian American Mathematical Society arbitrary assume asymptotic automorph Azumaya algebra B₁ Besov spaces bijection boundary Co(E coefficients cohomology coincides commutative compact completes the proof component condition consider construct convergence Corollary corresponding cubes defined definition denote diagram direct sum domain dyadic eigenvalues elements English transl entire function equation equivalent exists extension F-algebra F-functor field finite formula functor Galois Hecke operators homomorphism implies inequality integral invariant subspace inverse involution irreducible isomorphism Lemma linear Math matrix module morphism multiplication N₁ norm notation obtain polynomial problem proof of Theorem properties Proposition prove quadratic forms quasi-Banach space relation representation respectively result rigged configuration ring satisfies self-similar semigroup sequence smooth solution spectral geometry statement subfunctor subgroup Subsection Suppose theory theta-series V₁ vector vector bundle Young diagrams