St. Petersburg Mathematical Journal, 15. cilt,1-468. sayfalarAmerican Mathematical Society, 2004 |
Kitabın içinden
84 sonuçtan 1-3 arası sonuçlar
Sayfa 62
... Proof of Lemma 2. It also follows the lines of the proof of Lemma 2. Here the changes are even slighter ; namely , x2 ( w1 - P ) must be replaced by r2 = ( log w ) 1 . = We pass to the other limit case : p = 1. Now the changes to be ...
... Proof of Lemma 2. It also follows the lines of the proof of Lemma 2. Here the changes are even slighter ; namely , x2 ( w1 - P ) must be replaced by r2 = ( log w ) 1 . = We pass to the other limit case : p = 1. Now the changes to be ...
Sayfa 111
... Proof . If C ~ ( t3 , t5 ) , then the proof is similar to that of Lemma 1. ( We set v : = 3x Əx + 5y Əy . ) If C ~ ( t3 , t5 , t7 ) , then the proof is similar to that of Lemma 2 . RL §4 . NONSIMPLE FAMILIES We prove that all germs ...
... Proof . If C ~ ( t3 , t5 ) , then the proof is similar to that of Lemma 1. ( We set v : = 3x Əx + 5y Əy . ) If C ~ ( t3 , t5 , t7 ) , then the proof is similar to that of Lemma 2 . RL §4 . NONSIMPLE FAMILIES We prove that all germs ...
Sayfa 143
... proof of Lemma 2.1 , we can choose 1 ( C1 , C3 ) so small that I = Jo s2 ̧2aóв ( \ w \ 2 + | ▽ w | 2 ) e - L12 ≤ C12 ( C1 , C3 ) SCRE ( R2 + ( 3 + 1 ) en ) × ] 1 / 2,1 [ dyds X ( Yn , 8 ) ( SYn ) 2e2a ¢ B ( | v | 2 + | ▽ v | 2 ) e ̄ ...
... proof of Lemma 2.1 , we can choose 1 ( C1 , C3 ) so small that I = Jo s2 ̧2aóв ( \ w \ 2 + | ▽ w | 2 ) e - L12 ≤ C12 ( C1 , C3 ) SCRE ( R2 + ( 3 + 1 ) en ) × ] 1 / 2,1 [ dyds X ( Yn , 8 ) ( SYn ) 2e2a ¢ B ( | v | 2 + | ▽ v | 2 ) e ̄ ...
İçindekiler
2004 No 1 Pages 140 | 2 |
New modifications of the analytic capacity | 24 |
Mathematics Subject Classification Primary 31A15 | 139 |
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American Mathematical Society analytic capacity analytic function arbitrary assume asymptotics BLSu Bmax Bmin boundary Cantor function Cauchy cell decomposition characteristic function closed braid condition consider continuous Corollary corresponding defined definition denote domain ʲ(Nint English transl equation equivalent exists finite formula geodesics Herglotz Hilbert space Hölder inequality identity implies inequality infimum integral interval Lebesgue Lebesgue measure Lemma linear function mapping Math matrix Moreover multigerm Nint nonzero obtain operator measure orthogonal p₁ Petersburg polynomial problem proof of Theorem Proposition proved q₁ relation representation respect satisfying selfadjoint selfadjoint operator sequence singular spectral spectrum subgroup subset subspace Suppose symplectic symplectomorphism tangent space Theorem theory uniqueness vector wavelet zero