St. Petersburg Mathematical Journal, 12. cilt,1-505. sayfalarAmerican Mathematical Society, 2001 |
Kitabın içinden
66 sonuçtan 1-3 arası sonuçlar
Sayfa 85
... subspaces turn out to be precisely the hyperinvariant subspaces for the operator M2 ( see §1 ) . We wish to compare the multiplier invariant subspaces of X with those of X1 . As- suming that I is a multiplier invariant subspace of X1 ...
... subspaces turn out to be precisely the hyperinvariant subspaces for the operator M2 ( see §1 ) . We wish to compare the multiplier invariant subspaces of X with those of X1 . As- suming that I is a multiplier invariant subspace of X1 ...
Sayfa 96
... subspace of X of index 1 , and let E be as in the preceding lemma . Then in X there exist two multiplier invariant subspaces J1 and J2 such that ( a ) J = JinJ2 , ( b ) σ , σE , ( c ) σJ2 = 0JE . = = Proof . First , we assume that J is ...
... subspace of X of index 1 , and let E be as in the preceding lemma . Then in X there exist two multiplier invariant subspaces J1 and J2 such that ( a ) J = JinJ2 , ( b ) σ , σE , ( c ) σJ2 = 0JE . = = Proof . First , we assume that J is ...
Sayfa 251
... subspaces . Proof . By Theorem 8 ( 3 ) , each subspace N ( x ) CN is invariant under all the Hecke oper- ators TT with T E H , ( G ) , and on it the operators in question can be interpreted as the operators | k , xj ( T ) with j ( T ) ...
... subspaces . Proof . By Theorem 8 ( 3 ) , each subspace N ( x ) CN is invariant under all the Hecke oper- ators TT with T E H , ( G ) , and on it the operators in question can be interpreted as the operators | k , xj ( T ) with j ( T ) ...
İçindekiler
2000 вып 1 Vol 12 2001 No | 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
algebra analytic apply assume asymptotic Banach space basis belongs boundary bounded called coefficients coincides commutative complete component condition configuration Consequently consider construct contains continuous convergence corresponding cubes defined definition denote determined diagram direct domain eigenvalues elements entire equal equation equivalent estimate exists extension fact field finite fixed formal formula function geometry given homomorphism identity implies inequality integral introduce invariant involution isomorphism journals Lemma linear Math Mathematical matrix means module Moreover multiplication natural norm obtain operator particular polynomial positive problem projection Proof properties Proposition prove proximate order quadratic relation relative Remark representation respectively restriction result ring satisfies sequence similar smooth solution space statement Subsection subspace Suppose Theorem theory variety vector