St. Petersburg Mathematical Journal, 8. cilt,1-542. sayfalarAmerican Mathematical Society, 1997 |
Kitabın içinden
72 sonuçtan 1-3 arası sonuçlar
Sayfa 11
... introduce an oscillatory factor in V in the same way as in Proposition 2.13 . To avoid bulky formulations , we restrict ourselves to the case of a semiinfinite gap . Thus , A = ( −∞ , 0 ) , λ + = 0 , M1 = 1 , § ( + ) = 0. We denote h ...
... introduce an oscillatory factor in V in the same way as in Proposition 2.13 . To avoid bulky formulations , we restrict ourselves to the case of a semiinfinite gap . Thus , A = ( −∞ , 0 ) , λ + = 0 , M1 = 1 , § ( + ) = 0. We denote h ...
Sayfa 227
... introduce the notation f2 fdu = f . Let k Є Z + ; we put ( B.17 ) k - 1 1 mk f ( x ) : = k Σƒ ( A'x ) and , for any given 8 > 0 , introduce 1 = 0 QUANTUM ARNOL'D CAT IN THE CLASSICAL limit 227.
... introduce the notation f2 fdu = f . Let k Є Z + ; we put ( B.17 ) k - 1 1 mk f ( x ) : = k Σƒ ( A'x ) and , for any given 8 > 0 , introduce 1 = 0 QUANTUM ARNOL'D CAT IN THE CLASSICAL limit 227.
Sayfa 352
... introduce the cylinder Q = { y ЄR " : | yi | ≤ p , i = 1 , ... , n − 1 ; 0 < yn < hp } with hp = p + | -z❘ and observe that h≤ 10X331 and the upper base of Q is contained in B , ( z ) C A ( u ) . Comparing the function v in Q with ...
... introduce the cylinder Q = { y ЄR " : | yi | ≤ p , i = 1 , ... , n − 1 ; 0 < yn < hp } with hp = p + | -z❘ and observe that h≤ 10X331 and the upper base of Q is contained in B , ( z ) C A ( u ) . Comparing the function v in Q with ...
İçindekiler
REPRESENTATION OF A FORM | 17 |
10 The automorphism groups of discriminant forms | 59 |
12 A general formula for the weight of representations | 65 |
Telif Hakkı | |
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2can a₁ arbitrary assume assumptions asymptotics b₁ boundary bounded classical coefficients compact condition congruence constant construction convex convex hull corresponding curvature curve decomposition defined definition denote differential dimension discrete domain eigenfunctions eigenvalues elliptic English transl equation ergodic estimate exists finite fixed formula function genus gradient flow Grassmannians H₁ Hilbert space implies inequality integral invariant inverse isometric isospectral labeled graph lattice Lemma linear M₁ manifolds Math Mathematics Subject Classification matrix Moreover Morse functions nonzero obtain orbifolds orthogonal parameter periodic orbits perturbation Phys positive potential problem Proposition prove quadratic forms quantization quantum relation respect result satisfies Schrödinger equation Schrödinger operator selfadjoint semiclassical solutions space spectral spectrum square free Subsection subspace symbol symmetric theory vector wavelet Wiener zero