St. Petersburg Mathematical Journal, 19. cilt,1-494. sayfalarAmerican Mathematical Society, 2008 |
Kitabın içinden
88 sonuçtan 1-3 arası sonuçlar
Sayfa 413
... assume that ẞ2 0 and ẞ ; = 0 for all 3 ≤ i ≤n . Thus , X , Y < QX12 < B ( 2 , T ) . If b1 = b2 , a similar ... assume that a1 = V2 , and conjugating by a transvection in X23 ( which does not change a1 ) , we may assume that b2u2 . Now ...
... assume that ẞ2 0 and ẞ ; = 0 for all 3 ≤ i ≤n . Thus , X , Y < QX12 < B ( 2 , T ) . If b1 = b2 , a similar ... assume that a1 = V2 , and conjugating by a transvection in X23 ( which does not change a1 ) , we may assume that b2u2 . Now ...
Sayfa 416
... Assume that | T | ≥ 3. Then all pairs X , Y ≤ B ( 2 , T ) belong to one of the orbits 16 listed above , and their spans have the required shape . V1 , or b = = U2 . Proof . Without loss of generality we may assume that X Y = Qab we ...
... Assume that | T | ≥ 3. Then all pairs X , Y ≤ B ( 2 , T ) belong to one of the orbits 16 listed above , and their spans have the required shape . V1 , or b = = U2 . Proof . Without loss of generality we may assume that X Y = Qab we ...
Sayfa 421
... assume that Q and X are both contained in one of the following subgroups : * 0 ( ၁ ) 0 0 1 or ( ၉ ) In the sequel we denote the second of these subgroups by P. By definition , we have PQ2X12X13X23 . Now , repeating the proof of Lemma ...
... assume that Q and X are both contained in one of the following subgroups : * 0 ( ၁ ) 0 0 1 or ( ၉ ) In the sequel we denote the second of these subgroups by P. By definition , we have PQ2X12X13X23 . Now , repeating the proof of Lemma ...
İçindekiler
S Alesker Quaternionic plurisubharmonic functions and their applications | 1 |
S ArtsteinAvidan and V D Milman Using Rademacher permutations | 15 |
Burago S Ivanov and D Shoenthal Two counterexamples in low | 33 |
Telif Hakkı | |
9 diğer bölüm gösterilmiyor
Diğer baskılar - Tümünü görüntüle
Sık kullanılan terimler ve kelime öbekleri
A₁ Algebra asdim assume asymptotic dimension Aut F automorphisms b₁ ball boundary at infinity bounded c₁ cdim Chevalley groups Co(Z commutative ring compact consider constant construct convex body convex sets Corollary cup product defined definition denote diam EEO(n elementary elements English transl EO(n equations estimate Euclidean exists finite Finsler metric function f geodesic geometric GL(n GO(n group G Hence homeomorphism hypdim hyper-Hermitian hyperbolic groups hyperbolic space implies inequality integer invariant isometric isomorphism K₁ Lemma log-concave log-concave function Math matrix matrix-valued function measure metric space nontrivial nonzero obtain open covering orthogonal group overgroups paper Petersburg plurisubharmonic functions polygonal line problem proof of Theorem Proposition prove quasi-isometric quaternionic random satisfies self-similar sequence solution subgroup subset subspace symmetric tensor valuations Theorem 1.1 topological transvection tubular neighborhood uniformly vector