St. Petersburg Mathematical Journal, 16. ciltAmerican Mathematical Society, 2005 |
Kitabın içinden
8 sonuçtan 1-3 arası sonuçlar
Sayfa 84
... Lebesgue space L2 ( R ) onto the Hardy space in the open upper half - plane . §4 . THE CASE OF BOUNDED OPERATORS In this section we turn to the case of bounded selfadjoint operators in possibly infinite- dimensional spaces . The ...
... Lebesgue space L2 ( R ) onto the Hardy space in the open upper half - plane . §4 . THE CASE OF BOUNDED OPERATORS In this section we turn to the case of bounded selfadjoint operators in possibly infinite- dimensional spaces . The ...
Sayfa 86
... Lebesgue spaces ; the passage to the L ( N ) -spaces is left to the reader . We set V + f ( 2 ) = √p du + ( t ) f ( t ) R tz and similarly for -N - 1 . We begin with a preliminary lemma . Lemma 4.2 . Let du be a Cnxn - valued positive ...
... Lebesgue spaces ; the passage to the L ( N ) -spaces is left to the reader . We set V + f ( 2 ) = √p du + ( t ) f ( t ) R tz and similarly for -N - 1 . We begin with a preliminary lemma . Lemma 4.2 . Let du be a Cnxn - valued positive ...
Sayfa 275
... Lebesgue measurable , and | , | F0 || 1 | < +00 . - The principal value of the integral ( 2πi ) −1 ƒ , ( F ( z ) / ( z — ( ) ) dz , where ( € y ( I ) , will be denoted by ( C ) ; by definition , CF ( C ) = CF ( C ) for ( € C \ y ( I ) ...
... Lebesgue measurable , and | , | F0 || 1 | < +00 . - The principal value of the integral ( 2πi ) −1 ƒ , ( F ( z ) / ( z — ( ) ) dz , where ( € y ( I ) , will be denoted by ( C ) ; by definition , CF ( C ) = CF ( C ) for ( € C \ y ( I ) ...
İçindekiler
ISOMETRIC EMBEDDINGS OF FINITEDIMENSIONAL pSPACES | 11 |
OVER THE QUATERNIONS | 104 |
1 Introduction | 117 |
Telif Hakkı | |
5 diğer bölüm gösterilmiyor
Diğer baskılar - Tümünü görüntüle
Sık kullanılan terimler ve kelime öbekleri
analytic approximation assume asymptotic Birman BKN-equation bounded C(zIm coefficients cohomology classes compatible components constant corresponding defined denote diffeomorphism Dirac operator domain edge eigenvalues embedding English transl estimate Euler characteristic exists finite formula geodesic graph graph-manifold harmonic Hilbert space holomorphic implies inequality integral invertible isometric K₁ kernel Lemma length function linear Math matrix matrix-valued function maximal blocks meromorphic monodromy nonzero norm NPC-solution obtain oriented Painlevé equations pair paper polynomial positive potential problem proof of Theorem properties Proposition prove rational refinable function relation representation respect result Riemann-Hilbert Riemann-Hilbert problem Riemannian manifold S₁ satisfies Schrödinger operator Seifert fibered space self-affine selfadjoint selfadjoint operators singular Sobolev Sobolev spaces solution spectrum Subsection subspace supp Suppose symmetric Theorem Theorem 3.1 theory torus vector vertex vertices zero