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1. Hyperbolic Fourier series

Author

Bakan, Andrew, Hedenmalm, Haakan, Montes-Rodriguez, Alfonso, Radchenko, Danylo, and Viazovska, Maryna

Subjects
Mathematics - Analysis of PDEs, 81Q05, 42C30 (Primary) 33C05, 33E05 (Secondary)
Abstract

In this article we explain the essence of the interrelation described in [PNAS 118, 15 (2021)] on how to write explicit interpolation formula for solutions of the Klein-Gordon equation by using the recent Fourier pair interpolation formula of Viazovska and Radchenko from [Publ Math-Paris 129, 1 (2019)]. We construct explicitly the sequence in $L^1 (\mathbb{R} )$ which is biorthogonal to the system $1$, $\exp ( i \pi n x)$, $\exp ( i \pi n/ x)$, $n \in \mathbb{Z} \setminus \{0\}$, and show that it is complete in $L^1 (\mathbb{R})$. We associate with each $f \in L^1 (\mathbb{R}, (1+x^2)^{-1} d x)$ its hyperbolic Fourier series $h_{0}(f) + \sum_{n \in \mathbb{Z}\setminus \{0\}}(h_{n}(f) e^{ i \pi n x} + m_{n}(f) e^{-i \pi n / x} )$ and prove that it converges to $f$ in the space of tempered distributions on the real line. Applied to the above mentioned biorthogonal system, the integral transform given by $U_{\varphi} (x, y):= \int_{\mathbb{R}} \varphi (t) \exp \left( i x t + i y / t \right) d t $, for $\varphi \in L^{1} (\mathbb{R})$ and $(x, y) \in \mathbb{R}^{2}$, supplies interpolating functions for the Klein-Gordon equation., Comment: 123 pages, 3 figures

Published
2021

2. Fourier uniqueness in $\mathbb{R}^4$

Author

Bakan, Andrew, Hedenmalm, Haakan, Montes-Rodriguez, Alfonso, Radchenko, Danylo, and Viazovska, Maryna

Subjects
Mathematics - Functional Analysis, Mathematics - Number Theory, 42B10, 37A45, 35L10
Abstract

We show an interrelation between the uniqueness aspect of the recent Fourier interpolation formula of Radchenko and Viazovska and the Heisenberg uniqueness study for the Klein-Gordon equation and the lattice-cross of critical density, studied by Hedenmalm and Montes-Rodriguez. This has been known since 2017., Comment: 3 pages

Published
2020

3. Exponential integral representations of theta functions

Author

Bakan, Andrew and Hedenmalm, Håkan

Subjects
Mathematics - Classical Analysis and ODEs, 33C05, 33E05
Abstract

Let $\Theta_{3} (z):= \sum_{n\in\mathbb{Z}} \exp (i \pi n^2 z)$ be the standard Jacobi theta function, which is holomorphic and zero-free in the upper half-plane $\mathbb{H}$, and takes positive values along the positive imaginary axis. We define its logarithm $\log\Theta_3(z)$ which is uniquely determined by the requirements that it should be holomorphic in $\mathbb{H}$ and real-valued on the positive imaginary axis. We derive an integral representation of $\log\Theta_{3} (z)$ when $z$ belongs to the hyperbolic quadrilateral $\mathcal{F}^{||}_{\square}$, consisted of all those $z \in \mathbb{H}$ which satisfy $-1 \leq Re\, z \leq 1$, $|2 z - 1| > 1$ and $ |2 z + 1| > 1$. Since every point of $\mathbb{H}$ is equivalent to at least one point in $\mathcal{F}^{||}_{\square}$ under the theta subgroup of the modular group on the upper half-plane, this representation carries over in modified form to all of $\mathbb{H}$ via the identity recorded by Berndt. The logarithms of the related Jacobi theta functions $\Theta_{4}$ and $\Theta_{2}$ may be conveniently expressed in terms of $\log\Theta_{3}$ via functional equations, and hence get controlled as well. Our approach is based on a study the logarithm of the Gauss hypergeometric function for a specific choice of the parameters. This connects with the study of the universally starlike mappings introduced by Ruscheweyh, Salinas, and Sugawa., Comment: 74 pages

Published
2019
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4. Universally starlike and Pick functions

Author

Bakan, Andrew, Ruscheweyh, Stephan, and Salinas, Luis

Subjects
Mathematics - Classical Analysis and ODEs, 30C45, 30E20
Abstract

Denote by $\mathcal{P}_{\log}$ the set of all non-constant Pick functions $f$ whose logarithmic derivatives $f^{\, \prime}/f$ also belong to the Pick class. Let $\mathcal{U}(\Lambda)$ be the family of functions $z\cdot f(z)$, where $f \in\mathcal{P}_{\log}$ and $f$ is holomorphic on $\Lambda:=\mathbb{C}\setminus [1, +\infty)$. Important examples of functions in $\mathcal{U}(\Lambda)$ are the classical polylogarithms $Li_\alpha(z)$ $:=$ $\sum_{k=1}^{\infty} z^k / k^\alpha$ for $\alpha \geq 0$. In this paper we prove that every $\varphi \in \mathcal{U}(\Lambda)$ is universally starlike, i.e., $\varphi$ maps every circular domain in $\Lambda$ containing the origin one-to-one onto a starlike domain. Furthermore, we show that every non-constant function $f \in \mathcal{P}_{\log}$ belongs to the Hardy space $H_p$ on the upper half-plane for some constant $p=p(f) > 1$, unless $f$ is proportional to some function $(a-z)^{-\theta}$ with $a \in \mathbb{R}$ and $0 < \theta \leq 1$. Finally we derive a necessary and sufficient condition on a real-valued function $v$ for which there exists $f \in \mathcal{P}_{\log}$ such that $v (x) = \lim_{\varepsilon \to 0} \mathrm{Im} f (x + i \varepsilon)$ for almost all $x \in \mathbb{R}$., Comment: 40 pages

Published
2018

5. Smoothing of weights in the Bernstein approximation problem

Author

Bakan, Andrew and Prestin, Jürgen

Subjects
Mathematics - Functional Analysis, 41A10, 46E30, 32A15, 32A60
Abstract

In 1924 S.Bernstein asked for conditions on a uniformly bounded on $\mathbb{R}$ Borel function (weight) $w: \mathbb{R} \to [0, +\infty )$ which imply the denseness of algebraic polynomials ${\mathcal{P} }$ in the seminormed space $ C^{0}_{w} $ defined as the linear set $ \{f \in C (\mathbb{R}) \ | \ w (x) f (x) \to 0 \ \mbox{as} \ {|x| \to +\infty}\}$ equipped with the seminorm $\|f\|_{w} := \sup_{x \in {\mathbb{R}}} w(x)| f( x )|$. In 1998 A.Borichev and M.Sodin completely solved this problem for all those weights $w$ for which ${\mathcal{P} }$ is dense in $ C^{0}_{w} $ but there exists a positive integer $n=n(w)$ such that $\mathcal{P}$ is not dense in $ C^{0}_{(1+x^{2})^{n} w}$. In the present paper we establish that if $\mathcal{P}$ is dense in $ C^{0}_{(1+x^{2})^{n} w}$ for all $n \geq 0$ then for arbitrary $\varepsilon > 0$ there exists a weight $W_{\varepsilon} \in C^{\infty} (\mathbb{R})$ such that ${\mathcal{P}}$ is dense in $C^{\,0}_{(1+x^{2})^{n} W_{\varepsilon}}$ for every $n \geq 0$ and $W_{\varepsilon} (x) \geq w (x) + \mathrm{e}^{- \varepsilon |x|}$ for all $x\in \mathbb{R}$., Comment: 15 pages

Published
2016

6. More properties of the Ramanujan sequence

Author

Bakan, Andrew, Ruscheweyh, Stephan, and Salinas, Luis

Subjects
Mathematics - Classical Analysis and ODEs, 33B10, 30C45, 26D07
Abstract

The Ramanujan sequence $ \{\theta_{n}\}_{n \geq 0}$, defined as $$ \theta_{0}= \frac{1}{2} \ , \ \ \ \theta_{n} = \left(\ \ \frac{e^{n}}{2} - \sum_{k=0}^{n-1} \frac{n^{k}}{k !} \ \ \right) \cdot \frac{n !}{n^{n}} \ , \ \ n \geq 1 \ ,$$ has been studied on many occasions and in many different contexts. J.Adell and P.Jodra (2008) and S. Koumandos (2013) showed, respectively, that the sequences $\{\theta_{n}\}_{n \geq 0}$ and $\{4/135 - n \cdot (\theta_{n}- 1/3 )\}_{n \geq 0}$ are completely monotone. In the present paper we establish that the sequence $\{(n+1)(\theta_{n}- 1/3 )\}_{n \geq 0}$ is also completely monotone. Furthermore, we prove that the analytic function $(\theta_{1}- 1/3 )^{-1} \sum_{n=1}^{\infty} (\theta_{n}- 1/3 ) \cdot z^{n} / n^{\alpha} $ is universally starlike for every $ \alpha \geq 1 $ in the slit domain $ \mathbb{C} \setminus [1,\infty)$. This seems to be the first result putting the Ramanujan sequence into the context of analytic univalent functions and is a step towards a previous stronger conjecture, proposed by S.Ruscheweyh, L.Salinas and T.Sugawa in 2009, namely that the function $(\theta_{1}- 1/3 )^{-1} \sum_{n=1}^{\infty} (\theta_{n}- 1/3 ) \cdot z^{n} $ is universally convex., Comment: 12 p

Published
2016

7. Solvability of the Hankel determinant problem for real sequences

Author

Bakan, Andrew and Berg, Christian

Subjects
Mathematics - Classical Analysis and ODEs, 44A60, 47B36, 15A15, 15A63
Abstract

To each nonzero sequence $s:= \{s_{n}\}_{n \geq 0}$ of real numbers we associate the Hankel determinants $D_{n} = \det \mathcal{H}_{n}$ of the Hankel matrices $\mathcal{H}_{n}:= (s_{i + j})_{i, j = 0}^{n}$, $n \geq 0$, and the nonempty set $N_{s}:= \{n \geq 1 \, | \, D_{n-1} \neq 0 \}$. We also define the Hankel determinant polynomials $P_0:=1$, and $P_n$, $n\geq 1$ as the determinant of the Hankel matrix $\mathcal H_n$ modified by replacing the last row by the monomials $1, x, \ldots, x^n$. Clearly $P_n$ is a polynomial of degree at most $n$ and of degree $n$ if and only if $n\in N_s $. Kronecker established in 1881 that if $N_s $ is finite then rank $\mathcal{H}_{n} = r$ for each $n \geq r-1$, where $r := \max N_s $. By using an approach suggested by I.S.Iohvidov in 1969 we give a short proof of this result and a transparent proof of the conditions on a real sequence $\{t_n\}_{n\geq 0}$ to be of the form $t_n=D_n$, $n\geq 0$ for a real sequence $\{s_n\}_{n\geq 0}$. This is the Hankel determinant problem. We derive from the Kronecker identities that each Hankel determinant polynomial $ P_n $ satisfying deg$P_n = n\geq 1$ is preceded by a nonzero polynomial $P_{n-1}$ whose degree can be strictly less than $n-1$ and which has no common zeros with $ P_n $. As an application of our results we obtain a new proof of a recent theorem by Berg and Szwarc about positive semidefiniteness of all Hankel matrices provided that $D_0 > 0, \ldots, D_{r-1} > 0 $ and $D_n=0$ for all $n\geq r$., Comment: 19 pages

Published
2016

11. Polynomial approximation in $L_p(R, d\mu)$. I

Author

Bakan, Andrew G.

Subjects
Mathematics - Classical Analysis and ODEs, 41A10, 30D10, 30D45
Abstract

Final representation of all those measures $\mu$ for which algebraic polynomials are dense in $L_p(R, d\mu)$ is found. The weighted analogue of the Weierstrass polynomial approximation theorem and a new version of the M. Krein's theorem about partial fraction decomposition of reciprocal of an entire function are established., Comment: LaTeX, amsfonts, 45 p

Published
1998

20. Fourier uniqueness in even dimensions

Author

Bakan, Andrew, Hedenmalm, Håkan, Montes-Rodriguez, Alfonso, Radchenko, Danylo, Viazovska, Maryna, Bakan, Andrew, Hedenmalm, Håkan, Montes-Rodriguez, Alfonso, Radchenko, Danylo, and Viazovska, Maryna

Abstract

In recent work, methods from the theory of modular forms were used to obtain Fourier uniqueness results in several key dimensions (d = 1, 8, 24), in which a function could be uniquely reconstructed from the values of it and its Fourier transform on a discrete set, with the striking application of resolving the sphere packing problem in dimensions d = 8 and d = 24. In this short note, we present an alternative approach to such results, viable in even dimensions, based instead on the uniqueness theory for the KleinGordon equation. Since the existing method for the Klein-Gordon uniqueness theory is based on the study of iterations of Gauss-type maps, this suggests a connection between the latter and methods involving modular forms. The derivation of Fourier uniqueness from the Klein-Gordon theory supplies conditions on the given test function for Fourier interpolation, which are hoped to be optimal or close to optimal., QC 20210602

Published
2021
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27. SMOOTHING OF WEIGHTS IN THE BERNSTEIN APPROXIMATION PROBLEM.

Author

BAKAN, ANDREW and PRESTIN, JÜRGEN

Subjects
*SMOOTHNESS of functions, *APPROXIMATION theory, *BOREL sets, *WEIGHTED graphs, *ALGEBRAIC spaces
Abstract

In 1924 S. Bernstein [Bull. Soc. Math. France 52 (1924), 399- 410] asked for conditions on a uniformly bounded ℝ Borel function (weight) w: ℝ → [0,+∞) which imply the denseness of algebraic polynomials P in the seminormed space Cw0 defined as the linear set {f ∈ C(ℝ) | w(x)f(x) → 0 as |x| → +∞} equipped with the seminorm ∥f∥w := supx∈ℝ w(x)|f(x)|. In 1998 A. Borichev and M. Sodin [J. Anal. Math 76 (1998), 219-264] completely solved this problem for all those weights w for which P is dense in Cw0 but for which there exists a positive integer n = n(w) such that P is not dense in .... In the present paper we establish that if P is dense in ... for all n ≥ 0, then for arbitrary ε > 0 there exists a weight Wε ∈ C∞(ℝ) such that P is dense in ... for every n ≥ 0 and Wε(x) ≥ w(x)+e-ε|x| for all x ∈ ℝ. [ABSTRACT FROM AUTHOR]

Published
2018
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28. Weakly Increasing Zero-Diminishing Sequences

Author

Bakan, Andrew, Craven, Thomas, Csordas, George, and Golub, Anatoly

Subjects
Weakly Increasing Sequences, Zeros of Entire Functions, Zero-Diminishing Sequences, Interpolation
Abstract

The following problem, suggested by Laguerre’s Theorem (1884), remains open: Characterize all real sequences {μk} k=0...∞ which have the zero-diminishing property; that is, if k=0...n, p(x) = ∑(ak x^k) is any P real polynomial, then k=0...n, p(x) = ∑(μk ak x^k) has no more real zeros than p(x). In this paper this problem is solved under the additional assumption of a weak growth condition on the sequence {μk} k=0...∞, namely lim n→∞ | μn |^(1/n) < ∞. More precisely, it is established that the real sequence {μk} k≥0 is a weakly increasing zerodiminishing sequence if and only if there exists σ ∈ {+1,−1} and an entire function n≥1, Φ(z)= be^(az) ∏(1+ x/αn), a, b ∈ R^1, b =0, αn > 0 ∀n ≥ 1, ∑(1/αn) < ∞, such that µk = (σ^k)/Φ(k), ∀k ≥ 0.

Published
2009

36. Representation of measures with simultaneous polynomial denseness in L p( R, dμ), 1≤ p<∞.

Author

Bakan, Andrew and Ruscheweyh, Stephan

Abstract

We give characterisations of certain positive finite Borel measures with unbounded support on the real axis so that the algebraic polynomials are dense in all spaces L p( R, dμ), p≥1. These conditions apply, in particular, to the measures satisfying the classical Carleman conditions. [ABSTRACT FROM AUTHOR]

Published
2005
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37. On the Existence of Generalized Polya Frequency Functions Corresponding to Entire Functions with Zeros in Angular Sectors

Author

Bakan, Andrew and Ruscheweyh, Stephan

Abstract

Generalized Polya frequency functions are introduced through inverse Mellin transformations of the reciprocals of real entire functions with all zeros in sectors Aϕ and - Aϕ for 0 ≤ ϕ ≤ π/4, where Aϕ := {z ∈ C||arg z| ≤ ϕ}. It is shown that the constant π/4 is best possible in this context.

Published
2002
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