St. Petersburg Mathematical Journal, 4. cilt,4-6. sayılarAmerican Mathematical Society, 1993 |
Kitabın içinden
84 sonuçtan 1-3 arası sonuçlar
Sayfa 685
... Further , a point lying on a k - dimensional face of K can be covered by at most 2k cubes , and a point lying on a k - dimensional face of Q can be covered by at most 2d - 2k cubes . Proof . It can be assumed without loss of generality ...
... Further , a point lying on a k - dimensional face of K can be covered by at most 2k cubes , and a point lying on a k - dimensional face of Q can be covered by at most 2d - 2k cubes . Proof . It can be assumed without loss of generality ...
Sayfa 841
... Further , ( 3.1 ) , ( 3.2 ) , ( 3.7 ) , and ( 3.8 ) are again obtained , but ( 3.5 ) is < Im g ( z ) < 0. From this and ( 3.5 ) and ( 3.7 ) we get ( 3.9 ) 0 ≤ ( sgn y ) ( 2 ) ≤ 1 , Suppose now that rank V = n < ∞ , a.e. ЄR . ( 3.10 ) ...
... Further , ( 3.1 ) , ( 3.2 ) , ( 3.7 ) , and ( 3.8 ) are again obtained , but ( 3.5 ) is < Im g ( z ) < 0. From this and ( 3.5 ) and ( 3.7 ) we get ( 3.9 ) 0 ≤ ( sgn y ) ( 2 ) ≤ 1 , Suppose now that rank V = n < ∞ , a.e. ЄR . ( 3.10 ) ...
Sayfa 842
... Further , it follows from ( 3.17 ) that is a continuous function of V. In particular , ¿ ( 2 ) ≥ 0 for V≥0 , and ( 2 ) ≤ , 0 for V≤0 ( moreover , this is contained in the formulation of Theorem 3.1 ) . A 4. We now show that the ...
... Further , it follows from ( 3.17 ) that is a continuous function of V. In particular , ¿ ( 2 ) ≥ 0 for V≥0 , and ( 2 ) ≤ , 0 for V≤0 ( moreover , this is contained in the formulation of Theorem 3.1 ) . A 4. We now show that the ...
İçindekiler
MATHEMATICS | 665 |
150 | 832 |
ABSTRACT Let be an elliptic differential operator of order n2 with constant | 940 |
Telif Hakkı | |
4 diğer bölüm gösterilmiyor
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a₁ analytic assertion assume asymptotic Blaschke product boundary bounded C₁ cone consider const constant construction convex corresponding covector cubes D₁ decomposition defined definition denote diffeomorphisms differential domain eigenvalues English transl equality equation equivalent estimate exists finite follows function f H₁ hence Hilbert space Hölder holds inequality inner function integral irreducible lattice Lemma Leningrad Lie algebra linear M₁ mapping Mathematical Mathematics Subject Classification maximum principle morphism multiplicity nonlinear norm obtained operator pair perturbation polynomial problem proof of Theorem properties Proposition proved representation Riemann-Roch theorem S₁ satisfying the conditions scattering matrix scattering theory selfadjoint singular smooth solution Soviet Math space spectral spectrum Steklov subspace sufficiently Suppose t₁ Theorem 1.1 theory trace formula trace-class unique unitary V₁ zero