Systems of quadratic diophantine inequalities

Wolfgang Müller

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Simultaneous quadratic inequalities

R. Cook (1974)

Acta Arithmetica

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A remark on Whittaker functions on SL $(n, ℝ)$

Taku Ishii (2005)

Annales de l’institut Fourier

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We prove the recursive integral formula of class one $M$ -Whittaker functions on SL $(n, ℝ)$ conjectured and verified in case of $n = 3, 4$ by Stade.

On the metric theory of inhomogeneous diophantine approximations

J. Kurzweil (1955)

Studia Mathematica

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A lifting theorem for locally convex subspaces of $L_{0}$

R. Faber (1995)

Studia Mathematica

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We prove that for every closed locally convex subspace E of $L_{0}$ and for any continuous linear operator T from $L_{0}$ to $L_{0} / E$ there is a continuous linear operator S from $L_{0}$ to $L_{0}$ such that T = QS where Q is the quotient map from $L_{0}$ to $L_{0} / E$ .

Invariant differentials and $L$ -functions. Reciprocity law for quadratic fields and elliptic curves over $𝐐$

Taira Honda (1973)

Rendiconti del Seminario Matematico della Università di Padova

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On some singular integral operatorsclose to the Hilbert transform

T. Godoy, L. Saal, M. Urciuolo (1997)

Colloquium Mathematicae

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Let m: ℝ → ℝ be a function of bounded variation. We prove the $L^{p} (ℝ)$ -boundedness, 1 < p < ∞, of the one-dimensional integral operator defined by $T_{m} f (x) = p . v . \int k (x - y) m (x + y) f (y) d y$ where $k (x) = \sum_{j \in ℤ} 2^{j} φ_{j} (2^{j} x)$ for a family of functions ${φ_{j}}_{j \in ℤ}$ satisfying conditions (1.1)-(1.3) given below.

Geometric study of the beta-integers for a Perron number and mathematical quasicrystals

Jean-Pierre Gazeau, Jean-Louis Verger-Gaugry (2004)

Journal de Théorie des Nombres de Bordeaux

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We investigate in a geometrical way the point sets of $ℝ$ obtained by the $β$ -numeration that are the $β$ -integers $ℤ_{β} \subset ℤ [β]$ where $β$ is a Perron number. We show that there exist two canonical cut-and-project schemes associated with the $β$ -numeration, allowing to lift up the $β$ -integers to some points of the lattice $ℤ^{m}$ ( $m =$ degree of $β$ ) lying about the dominant eigenspace of the companion matrix of $β$ . When $β$ is in particular a Pisot number, this framework gives another proof of the fact...

Displaying similar documents to “Systems of quadratic diophantine inequalities”

Simultaneous quadratic inequalities

A remark on Whittaker functions on SL ( n , ℝ )

On the metric theory of inhomogeneous diophantine approximations

A lifting theorem for locally convex subspaces of L 0

Invariant differentials and L -functions. Reciprocity law for quadratic fields and elliptic curves over 𝐐

On some singular integral operatorsclose to the Hilbert transform

Geometric study of the beta-integers for a Perron number and mathematical quasicrystals

A remark on Whittaker functions on SL $(n, ℝ)$

A lifting theorem for locally convex subspaces of $L_{0}$

Invariant differentials and $L$ -functions. Reciprocity law for quadratic fields and elliptic curves over $𝐐$