St. Petersburg Mathematical Journal, 10. cilt,1-575. sayfalarAmerican Mathematical Society, 1999 |
Kitabın içinden
86 sonuçtan 1-3 arası sonuçlar
Sayfa 29
... condition ( ii ) of the lemma is fulfilled . If dim 8 , we set * = . Then condition ( iii ) is fulfilled . Now , let dim 7 = 2. Then πTE GP3 ( F ) . Since [ 1 −πT ] = [ § ] , we conclude that and π contain a common subform q of ...
... condition ( ii ) of the lemma is fulfilled . If dim 8 , we set * = . Then condition ( iii ) is fulfilled . Now , let dim 7 = 2. Then πTE GP3 ( F ) . Since [ 1 −πT ] = [ § ] , we conclude that and π contain a common subform q of ...
Sayfa 180
By ( 3.17 ) , ( 3.18 ) , condition ( 3.19 ) is equivalent to the condition ( 3.20 ) 28 max h2 + k + Vr # 0 ( mod 2 ) ( k = 1 , ... , p ; l = p +1 , ... , n ; 0 ≤ s ≤ 1 ) . By the Yakubovich theorem , ( 3.20 ) ensures that the ...
By ( 3.17 ) , ( 3.18 ) , condition ( 3.19 ) is equivalent to the condition ( 3.20 ) 28 max h2 + k + Vr # 0 ( mod 2 ) ( k = 1 , ... , p ; l = p +1 , ... , n ; 0 ≤ s ≤ 1 ) . By the Yakubovich theorem , ( 3.20 ) ensures that the ...
Sayfa 182
Under condition ( 3.28 ) ( respectively , ( 3.29 ) , ( 3.30 ) , ( 3.31 ) ) we have W € Ôy ( respec- tively , WE Ô ... condition is fulfilled , then A ( t ) e Ô + . = Proof . Under condition ( 3.32 ) we have k < ( k = 1 , ... , m ) ...
Under condition ( 3.28 ) ( respectively , ( 3.29 ) , ( 3.30 ) , ( 3.31 ) ) we have W € Ôy ( respec- tively , WE Ô ... condition is fulfilled , then A ( t ) e Ô + . = Proof . Under condition ( 3.32 ) we have k < ( k = 1 , ... , m ) ...
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A₁ Abelian group anisotropic arbitrary assume asymptotic boundary bounded C*-algebra coefficients compact condition cone conformal map consider constant construction convex Corollary corresponding decompositions defined definition denote dimension domain eigenvalues elements endomorphism English transl entire functions equation equivalent estimate exists exponential type F-algebra field finite formula geodesic Hadamard space harmonic measure Hence Hilbert space homomorphism homotopy II(m implies inequality integral isomorphism isotropic J-unitary k₁ Lemma linear Math Mathematical Mathematics Subject Classification matrices minimum-link module morphism multidegree obtain operator algebra operator space parameters Pfister form Pfister neighbor polynomial problem proof of Theorem properties Proposition proved quadratic form relation representation result satisfies segment sequence solution spectrum strongly stable subgroup Subsection subspace Theorem Theorem 2.1 theory topology unital homomorphism v₁ vector whence