St. Petersburg Mathematical Journal, 4. cilt,4-6. sayılarAmerican Mathematical Society, 1993 |
Kitabın içinden
6 sonuçtan 1-3 arası sonuçlar
Sayfa 1039
... prime , and either 31f , or L is of type An or 2An and n ≥ 30. Using [ 23 ] , we can easily see that e ( L ) > 228 > 248 > deg pi , a contradiction . Therefore 31 || Out ( L ) | and 31 || L | . Since P is a faithful rational - valued ...
... prime , and either 31f , or L is of type An or 2An and n ≥ 30. Using [ 23 ] , we can easily see that e ( L ) > 228 > 248 > deg pi , a contradiction . Therefore 31 || Out ( L ) | and 31 || L | . Since P is a faithful rational - valued ...
Sayfa 1040
... prime . If L belongs to the types E6 , 2E6 , E7 , E8 , then , according to [ 23 ] , e ( L ) ≥ qo ( q2 − 1 ) ≥ 3 ⋅ 29 > 248 , which is contrary to ( 7 ) . Assume L is of type F4 or 2F4 . If r > 2 , then e ( L ) ≥ q ° ( q2 − 1 ) ...
... prime . If L belongs to the types E6 , 2E6 , E7 , E8 , then , according to [ 23 ] , e ( L ) ≥ qo ( q2 − 1 ) ≥ 3 ⋅ 29 > 248 , which is contrary to ( 7 ) . Assume L is of type F4 or 2F4 . If r > 2 , then e ( L ) ≥ q ° ( q2 − 1 ) ...
Sayfa 1043
... prime index r in B , and ( ii ) x Є Irr ( B ) . If x ( a ) ‡ 0 for some a Є B - A , then XA Є Irr ( A ) . If x = 0 on B - A , then there exists p Є Irr ( A ) such that x = Ind ( p ) . i = 1 Ε Proof . By Clifford's theorem , XA = e Pi ...
... prime index r in B , and ( ii ) x Є Irr ( B ) . If x ( a ) ‡ 0 for some a Є B - A , then XA Є Irr ( A ) . If x = 0 on B - A , then there exists p Є Irr ( A ) such that x = Ind ( p ) . i = 1 Ε Proof . By Clifford's theorem , XA = e Pi ...
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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Sık kullanılan terimler ve kelime öbekleri
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