St. Petersburg Mathematical Journal, 17. cilt,1-551. sayfalarAmerican Mathematical Society, 2006 |
Kitabın içinden
75 sonuçtan 1-3 arası sonuçlar
Sayfa 6
... fixed points as a transformation of H : ( 1.7 ) t1,2 = - a2 − d2 ± √ ( a2 + d2 ) 2 4 2c2 The problem is how for given g2 to find g1 with the same fixed points 21,2 = t1,2 . Since √ ( a1 + d1 ) 2 - 4 is always irrational , we have a1 ...
... fixed points as a transformation of H : ( 1.7 ) t1,2 = - a2 − d2 ± √ ( a2 + d2 ) 2 4 2c2 The problem is how for given g2 to find g1 with the same fixed points 21,2 = t1,2 . Since √ ( a1 + d1 ) 2 - 4 is always irrational , we have a1 ...
Sayfa 8
... fixed points as a transformation of H : ( 1.7 ) t1,2 = a2d2 ± √ ( a2 + d2 ) 2 − 4 2c2 The problem is how for given g2 to find g1 with the same fixed points 21,2 = t1,2 . Since √ ( a + d1 ) 2 - 4 is always irrational , we have ( 1.8 ) ...
... fixed points as a transformation of H : ( 1.7 ) t1,2 = a2d2 ± √ ( a2 + d2 ) 2 − 4 2c2 The problem is how for given g2 to find g1 with the same fixed points 21,2 = t1,2 . Since √ ( a + d1 ) 2 - 4 is always irrational , we have ( 1.8 ) ...
Sayfa 9
... fixed points are ( 2.4 ) a + d 21,2 = t1,2 ( a + d ) 2 =士 2c 4c2 1 . - b с - a + d 2c H √ ( a− d ) 2 + 4 2c where we have used the relation det g = In case ( 2 ) , where tr ( gJ ) = da = 0 , we have a one - parameter family of fixed ...
... fixed points are ( 2.4 ) a + d 21,2 = t1,2 ( a + d ) 2 =士 2c 4c2 1 . - b с - a + d 2c H √ ( a− d ) 2 + 4 2c where we have used the relation det g = In case ( 2 ) , where tr ( gJ ) = da = 0 , we have a one - parameter family of fixed ...
İçindekiler
Антипов М А Генералов А И Конечная порожденность алгебр | 1 |
A Antipov and A I Generalov The Yoneda algebras of symmetric special | 377 |
of index issues of Mathematical Reviews | 379 |
Telif Hakkı | |
8 diğer bölüm gösterilmiyor
Diğer baskılar - Tümünü görüntüle
Sık kullanılan terimler ve kelime öbekleri
a₁ absolutely continuous algebraic solutions amoebas analytic arbitrary assume asymptotic Bäcklund transformations Belyĭ function Bose gas bounded c₁ coefficients condition conjugacy classes consider constant convex Corollary correlation functions corresponding curves defined deformation denote dessins Dirac operator discrete edges eigenvalues element English transl estimate exists finite formula G-cycle Goursat problem graph hyperbolic identity implies inequality integral K-functional K-surfaces k₁ lattice Lemma linear Lipschitz Math Mathematics Subject Classification matrix functions mesh(U metric metric space Newton polygon notation obtain Painlevé equation parameter Phys polygon polynomial proof of Theorem Proposition prove quantum R-matrix relation result RS-transformations satisfies Schrödinger operator selfadjoint sequence sixth Painlevé equation space spectrum Subsection subspace symmetric Theorem 2.1 theory transformation vector vertex vertices X₁ YB equation zero