St. Petersburg Mathematical Journal, 5. cilt,4-6. sayılarAmerican Mathematical Society, 1994 |
Kitabın içinden
91 sonuçtan 1-3 arası sonuçlar
Sayfa 710
... lemma , we get M≤ < { 4e ( R + r ) } " = ( x ( R + rm . ( SET ) On the other hand , for each zero of p ( z ) lying ... lemma type can easily by derived from Lemma 4.2 ( This is an analogue of Lemma 1.6 used before ) . Lemma 1.6 ′ . Let ...
... lemma , we get M≤ < { 4e ( R + r ) } " = ( x ( R + rm . ( SET ) On the other hand , for each zero of p ( z ) lying ... lemma type can easily by derived from Lemma 4.2 ( This is an analogue of Lemma 1.6 used before ) . Lemma 1.6 ′ . Let ...
Sayfa 910
... Lemma 1.1 . Assume that , for a measurable function ŋ : ( 0 , ∞ ) → ( 0 , ∞ ) , the dilation function M ( n , · ) is everywhere finite , let the dilation coefficients satisfy ( 1.1 ) , and let q € [ 0 , ∞ ] . Then for some constants ...
... Lemma 1.1 . Assume that , for a measurable function ŋ : ( 0 , ∞ ) → ( 0 , ∞ ) , the dilation function M ( n , · ) is everywhere finite , let the dilation coefficients satisfy ( 1.1 ) , and let q € [ 0 , ∞ ] . Then for some constants ...
Sayfa 1184
... lemma we have not used the fact that k and p are relatively prime . So , this lemma , as well as the following corollary , may be used in the consid- eration of Case 2 . Corollary . For any u Є k2 ( S ) , the following relations hold ...
... lemma we have not used the fact that k and p are relatively prime . So , this lemma , as well as the following corollary , may be used in the consid- eration of Case 2 . Corollary . For any u Є k2 ( S ) , the following relations hold ...
İçindekiler
LOCAL ESTIMATES OF EXPONENTIAL POLYNOMIALS | 665 |
Random periodization technique and the Morgan theorem | 678 |
Mathematics Subject Classification Primary 4202 | 719 |
Telif Hakkı | |
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a₁ algebra arbitrary assume asymptotic B₁ Bergman spaces boundary bounded coefficients coincides commutative compact condition cone consider convergence convex Corollary corresponding d₁ decomposition defined definition denote diagram differential distribution dµ(R elements embedding English transl equation equivalent estimate exists exponential polynomial finite follows formula function ƒ functor Gibbs phenomenon Hankel operators Hence Hom(X homomorphism homotopy ideal implies inequality integral interval L²(R lattice Lebesgue measure Lemma linear M₁ mapping Math Mathematical Mathematics Subject Classification matrix metric modulo Moreover N₁ norm obtain orthogonal P₁ problem Proof of Theorem properties Proposition proved quadratic forms quadratic space Radon transform relation representation respect ring satisfying selfadjoint sequence singular smooth solenoidal solution spectrum subset subspace sufficiently theory Toeplitz operators topology transformation u₁ V₁ whence zero