St. Petersburg Mathematical Journal, 16. cilt,437-1077. sayfalarAmerican Mathematical Society, 2005 |
Kitabın içinden
76 sonuçtan 1-3 arası sonuçlar
Sayfa 828
... given multiplicity r . Consider the set A , formed by the elements of the first level taken with multiplicity r . This is a cut set of multiplicity r . We take an arbitrary element AE A , and replace it by the pair of its neighbors at ...
... given multiplicity r . Consider the set A , formed by the elements of the first level taken with multiplicity r . This is a cut set of multiplicity r . We take an arbitrary element AE A , and replace it by the pair of its neighbors at ...
Sayfa 830
... given a polynomial Q ( z ) and an arbitrary finite set YC C , we put p ( Q , Y ) = Пyey Q ( y ) . Clearly , p ( . , Y ) is a multiplicative function on the ring of polynomials . The reader can easily prove the following lemma by ...
... given a polynomial Q ( z ) and an arbitrary finite set YC C , we put p ( Q , Y ) = Пyey Q ( y ) . Clearly , p ( . , Y ) is a multiplicative function on the ring of polynomials . The reader can easily prove the following lemma by ...
Sayfa 877
... given formally by the differ- ential expression ( 3.3 ) L = L ( s , h , v ) = ( s ( x ) ) − 1/2 curl ( h ( x ) ... given in terms of the quadratic form ( 3.4 ) ( [ u , u ] = ↓↓ ̧ ( ( ( h ( x ) ) ̄1 curl ( s ( x ) ) − 1 / 2u , curl ( s ...
... given formally by the differ- ential expression ( 3.3 ) L = L ( s , h , v ) = ( s ( x ) ) − 1/2 curl ( h ( x ) ... given in terms of the quadratic form ( 3.4 ) ( [ u , u ] = ↓↓ ̧ ( ( ( h ( x ) ) ̄1 curl ( s ( x ) ) − 1 / 2u , curl ( s ...
İçindekiler
S Buslaev M V Buslaeva and A Grigis Adiabatic asymptotics | 437 |
Volchkov A local tworadii theorem on the sphere | 453 |
A Kokotov and B Plamenevskii On the asymptotics of solutions | 477 |
Telif Hakkı | |
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Sık kullanılan terimler ve kelime öbekleri
Abelian group absolutely continuous Aleksandrov algebra American Mathematical Society angle assume asymptotics boundary values bounded braid Chevalley groups coefficients commutative comparison triangle condition cone consider constant convergence convex Corollary corresponding curvature curve defined denote differential dimension domain eigenvalues element English transl equation estimate exists finite formula function geodesic homomorphism hyperplane section implies inequality integral lattices isometry lattice of minimum Lemma linear Math Mathematics Subject Classification matrix metric minimal vectors Moreover nonzero norm obtain operator orthogonal P₁ parabolic subgroups PETERSBURG points polynomial problem proof of Theorem Proposition prove r₁ refinable functions regular triangulation respectively root subgroups S₁ satisfies selfadjoint simplicial solutions space spectrum statement subharmonic functions Subsection subspace summands Suppose t₁ twist number unipotent unique W₁ zero